PLUMED-NEST-TEST-SITE by plumed-nest

Project ID: plumID:21.030
Source: plumed-nest/nspe/cn.dat
Originally used with PLUMED version: 2.4
Stable: zipped raw stdout - zipped raw stderr - stderr
Master: zipped raw stdout - zipped raw stderr - stderr
Click on the labels of the actions for more information on what each action computes
#! vim:ft=plumed


# coordination 
r1: COMCalculate the center of mass for a group of atoms. More details
 ATOMSthe list of atoms which are involved the virtual atom's definition
=13,22 #res 1 and 10 agg in trial 1
The COM action with label r1 calculates somethingr2: COMCalculate the center of mass for a group of atoms. More details
 ATOMSthe list of atoms which are involved the virtual atom's definition=41,50
The COM action with label r2 calculates somethingr3: COMCalculate the center of mass for a group of atoms. More details
 ATOMSthe list of atoms which are involved the virtual atom's definition=64,73
The COM action with label r3 calculates somethingr4: COMCalculate the center of mass for a group of atoms. More details
 ATOMSthe list of atoms which are involved the virtual atom's definition=87,96
The COM action with label r4 calculates somethingr5: COMCalculate the center of mass for a group of atoms. More details
 ATOMSthe list of atoms which are involved the virtual atom's definition=110,119
The COM action with label r5 calculates somethingr6: COMCalculate the center of mass for a group of atoms. More details
 ATOMSthe list of atoms which are involved the virtual atom's definition
=133,142 #res 6 and 9 should be coordinated in a helix
The COM action with label r6 calculates somethingr7: COMCalculate the center of mass for a group of atoms. More details
 ATOMSthe list of atoms which are involved the virtual atom's definition=156,165
The COM action with label r7 calculates somethingr8: COMCalculate the center of mass for a group of atoms. More details
 ATOMSthe list of atoms which are involved the virtual atom's definition=179,188
The COM action with label r8 calculates somethingr9: COMCalculate the center of mass for a group of atoms. More details
 ATOMSthe list of atoms which are involved the virtual atom's definition
=202,211 #CG-CH 
The COM action with label r9 calculates somethingr10: COMCalculate the center of mass for a group of atoms. More details
 ATOMSthe list of atoms which are involved the virtual atom's definition=225,234
The COM action with label r10 calculates somethingr11: COMCalculate the center of mass for a group of atoms. More details
 ATOMSthe list of atoms which are involved the virtual atom's definition=248,257
The COM action with label r11 calculates somethingr12: COMCalculate the center of mass for a group of atoms. More details
 ATOMSthe list of atoms which are involved the virtual atom's definition=270,279

# coordination
The COM action with label r12 calculates somethingc: COORDINATIONCalculate coordination numbers. This action has hidden defaults. More details
 GROUPAFirst list of atoms
=r1,r1,r1,r1,r1,r1,r1,r1,r1,r1,r1,r2,r2,r2,r2,r2,r2,r2,r2,r2,r2,r3,r3,r3,r3,r3,r3,r3,r3,r3,r4,r4,r4,r4,r4,r4,r4,r4,r5,r5,r5,r5,r5,r5,r5,r6,r6,r6,r6,r6,r6,r7,r7,r7,r7,r7,r8,r8,r8,r8,r9,r9,r9,r10,r10,r11  GROUPBSecond list of atoms (if empty, N*(N-1)/2 pairs in GROUPA are counted)
=r2,r3,r4,r5,r6,r7,r8,r9,r10,r11,r12,r3,r4,r5,r6,r7,r8,r9,r10,r11,r12,r4,r5,r6,r7,r8,r9,r10,r11,r12,r5,r6,r7,r8,r9,r10,r11,r12,r6,r7,r8,r9,r10,r11,r12,r7,r8,r9,r10,r11,r12,r8,r9,r10,r11,r12,r9,r10,r11,r12,r10,r11,r12,r11,r12,r12 R_0The r_0 parameter of the switching function
=0.5 NN The n parameter of the switching function 
=8 MM The m parameter of the switching function; 0 implies 2*NN
=12  NLIST Use a neighbor list to speed up the calculation
 NL_CUTOFFThe cutoff for the neighbor list
=0.75 NL_STRIDEThe frequency with which we are updating the atoms in the neighbor list
=10 PAIR Pair only 1st element of the 1st group with 1st element in the second, etc
The COORDINATION action with label c calculates the following quantities: Quantity    Description  
c.value the value of the coordinationc: COORDINATIONCalculate coordination numbers. This action uses the defaults shown here. More details
 GROUPAFirst list of atoms
=r1,r1,r1,r1,r1,r1,r1,r1,r1,r1,r1,r2,r2,r2,r2,r2,r2,r2,r2,r2,r2,r3,r3,r3,r3,r3,r3,r3,r3,r3,r4,r4,r4,r4,r4,r4,r4,r4,r5,r5,r5,r5,r5,r5,r5,r6,r6,r6,r6,r6,r6,r7,r7,r7,r7,r7,r8,r8,r8,r8,r9,r9,r9,r10,r10,r11  GROUPBSecond list of atoms (if empty, N*(N-1)/2 pairs in GROUPA are counted)
=r2,r3,r4,r5,r6,r7,r8,r9,r10,r11,r12,r3,r4,r5,r6,r7,r8,r9,r10,r11,r12,r4,r5,r6,r7,r8,r9,r10,r11,r12,r5,r6,r7,r8,r9,r10,r11,r12,r6,r7,r8,r9,r10,r11,r12,r7,r8,r9,r10,r11,r12,r8,r9,r10,r11,r12,r9,r10,r11,r12,r10,r11,r12,r11,r12,r12 R_0The r_0 parameter of the switching function
=0.5 NN The n parameter of the switching function 
=8 MM The m parameter of the switching function; 0 implies 2*NN
=12  NLIST Use a neighbor list to speed up the calculation
 NL_CUTOFFThe cutoff for the neighbor list
=0.75 NL_STRIDEThe frequency with which we are updating the atoms in the neighbor list
=10 PAIR Pair only 1st element of the 1st group with 1st element in the second, etc
  D_0 The d_0 parameter of the switching function=0.0

# each ring coord
c1: COORDINATIONCalculate coordination numbers. This action has hidden defaults. More details
 GROUPAFirst list of atoms
=r1 GROUPBSecond list of atoms (if empty, N*(N-1)/2 pairs in GROUPA are counted)
=r2 R_0The r_0 parameter of the switching function
=0.5 NN The n parameter of the switching function 
=8 MM The m parameter of the switching function; 0 implies 2*NN
=12  NLIST Use a neighbor list to speed up the calculation
 NL_CUTOFFThe cutoff for the neighbor list
=0.75 NL_STRIDEThe frequency with which we are updating the atoms in the neighbor list=10 
The COORDINATION action with label c1 calculates the following quantities: Quantity    Description  
c1.value the value of the coordinationc1: COORDINATIONCalculate coordination numbers. This action uses the defaults shown here. More details
 GROUPAFirst list of atoms
=r1 GROUPBSecond list of atoms (if empty, N*(N-1)/2 pairs in GROUPA are counted)
=r2 R_0The r_0 parameter of the switching function
=0.5 NN The n parameter of the switching function 
=8 MM The m parameter of the switching function; 0 implies 2*NN
=12  NLIST Use a neighbor list to speed up the calculation
 NL_CUTOFFThe cutoff for the neighbor list
=0.75 NL_STRIDEThe frequency with which we are updating the atoms in the neighbor list
=10  D_0 The d_0 parameter of the switching function=0.0
c2: COORDINATIONCalculate coordination numbers. This action has hidden defaults. More details
 GROUPAFirst list of atoms
=r1 GROUPBSecond list of atoms (if empty, N*(N-1)/2 pairs in GROUPA are counted)
=r3 R_0The r_0 parameter of the switching function
=0.5 NN The n parameter of the switching function 
=8 MM The m parameter of the switching function; 0 implies 2*NN
=12  NLIST Use a neighbor list to speed up the calculation
 NL_CUTOFFThe cutoff for the neighbor list
=0.75 NL_STRIDEThe frequency with which we are updating the atoms in the neighbor list=10 
The COORDINATION action with label c2 calculates the following quantities: Quantity    Description  
c2.value the value of the coordinationc2: COORDINATIONCalculate coordination numbers. This action uses the defaults shown here. More details
 GROUPAFirst list of atoms
=r1 GROUPBSecond list of atoms (if empty, N*(N-1)/2 pairs in GROUPA are counted)
=r3 R_0The r_0 parameter of the switching function
=0.5 NN The n parameter of the switching function 
=8 MM The m parameter of the switching function; 0 implies 2*NN
=12  NLIST Use a neighbor list to speed up the calculation
 NL_CUTOFFThe cutoff for the neighbor list
=0.75 NL_STRIDEThe frequency with which we are updating the atoms in the neighbor list
=10  D_0 The d_0 parameter of the switching function=0.0
c3: COORDINATIONCalculate coordination numbers. This action has hidden defaults. More details
 GROUPAFirst list of atoms
=r1 GROUPBSecond list of atoms (if empty, N*(N-1)/2 pairs in GROUPA are counted)
=r4 R_0The r_0 parameter of the switching function
=0.5 NN The n parameter of the switching function 
=8 MM The m parameter of the switching function; 0 implies 2*NN
=12  NLIST Use a neighbor list to speed up the calculation
 NL_CUTOFFThe cutoff for the neighbor list
=0.75 NL_STRIDEThe frequency with which we are updating the atoms in the neighbor list=10 
The COORDINATION action with label c3 calculates the following quantities: Quantity    Description  
c3.value the value of the coordinationc3: COORDINATIONCalculate coordination numbers. This action uses the defaults shown here. More details
 GROUPAFirst list of atoms
=r1 GROUPBSecond list of atoms (if empty, N*(N-1)/2 pairs in GROUPA are counted)
=r4 R_0The r_0 parameter of the switching function
=0.5 NN The n parameter of the switching function 
=8 MM The m parameter of the switching function; 0 implies 2*NN
=12  NLIST Use a neighbor list to speed up the calculation
 NL_CUTOFFThe cutoff for the neighbor list
=0.75 NL_STRIDEThe frequency with which we are updating the atoms in the neighbor list
=10  D_0 The d_0 parameter of the switching function=0.0
c4: COORDINATIONCalculate coordination numbers. This action has hidden defaults. More details
 GROUPAFirst list of atoms
=r1 GROUPBSecond list of atoms (if empty, N*(N-1)/2 pairs in GROUPA are counted)
=r5 R_0The r_0 parameter of the switching function
=0.5 NN The n parameter of the switching function 
=8 MM The m parameter of the switching function; 0 implies 2*NN
=12  NLIST Use a neighbor list to speed up the calculation
 NL_CUTOFFThe cutoff for the neighbor list
=0.75 NL_STRIDEThe frequency with which we are updating the atoms in the neighbor list=10 
The COORDINATION action with label c4 calculates the following quantities: Quantity    Description  
c4.value the value of the coordinationc4: COORDINATIONCalculate coordination numbers. This action uses the defaults shown here. More details
 GROUPAFirst list of atoms
=r1 GROUPBSecond list of atoms (if empty, N*(N-1)/2 pairs in GROUPA are counted)
=r5 R_0The r_0 parameter of the switching function
=0.5 NN The n parameter of the switching function 
=8 MM The m parameter of the switching function; 0 implies 2*NN
=12  NLIST Use a neighbor list to speed up the calculation
 NL_CUTOFFThe cutoff for the neighbor list
=0.75 NL_STRIDEThe frequency with which we are updating the atoms in the neighbor list
=10  D_0 The d_0 parameter of the switching function=0.0
c5: COORDINATIONCalculate coordination numbers. This action has hidden defaults. More details
 GROUPAFirst list of atoms
=r1 GROUPBSecond list of atoms (if empty, N*(N-1)/2 pairs in GROUPA are counted)
=r6 R_0The r_0 parameter of the switching function
=0.5 NN The n parameter of the switching function 
=8 MM The m parameter of the switching function; 0 implies 2*NN
=12  NLIST Use a neighbor list to speed up the calculation
 NL_CUTOFFThe cutoff for the neighbor list
=0.75 NL_STRIDEThe frequency with which we are updating the atoms in the neighbor list=10 
The COORDINATION action with label c5 calculates the following quantities: Quantity    Description  
c5.value the value of the coordinationc5: COORDINATIONCalculate coordination numbers. This action uses the defaults shown here. More details
 GROUPAFirst list of atoms
=r1 GROUPBSecond list of atoms (if empty, N*(N-1)/2 pairs in GROUPA are counted)
=r6 R_0The r_0 parameter of the switching function
=0.5 NN The n parameter of the switching function 
=8 MM The m parameter of the switching function; 0 implies 2*NN
=12  NLIST Use a neighbor list to speed up the calculation
 NL_CUTOFFThe cutoff for the neighbor list
=0.75 NL_STRIDEThe frequency with which we are updating the atoms in the neighbor list
=10  D_0 The d_0 parameter of the switching function=0.0
c6: COORDINATIONCalculate coordination numbers. This action has hidden defaults. More details
 GROUPAFirst list of atoms
=r1 GROUPBSecond list of atoms (if empty, N*(N-1)/2 pairs in GROUPA are counted)
=r7 R_0The r_0 parameter of the switching function
=0.5 NN The n parameter of the switching function 
=8 MM The m parameter of the switching function; 0 implies 2*NN
=12  NLIST Use a neighbor list to speed up the calculation
 NL_CUTOFFThe cutoff for the neighbor list
=0.75 NL_STRIDEThe frequency with which we are updating the atoms in the neighbor list=10 
The COORDINATION action with label c6 calculates the following quantities: Quantity    Description  
c6.value the value of the coordinationc6: COORDINATIONCalculate coordination numbers. This action uses the defaults shown here. More details
 GROUPAFirst list of atoms
=r1 GROUPBSecond list of atoms (if empty, N*(N-1)/2 pairs in GROUPA are counted)
=r7 R_0The r_0 parameter of the switching function
=0.5 NN The n parameter of the switching function 
=8 MM The m parameter of the switching function; 0 implies 2*NN
=12  NLIST Use a neighbor list to speed up the calculation
 NL_CUTOFFThe cutoff for the neighbor list
=0.75 NL_STRIDEThe frequency with which we are updating the atoms in the neighbor list
=10  D_0 The d_0 parameter of the switching function=0.0
c7: COORDINATIONCalculate coordination numbers. This action has hidden defaults. More details
 GROUPAFirst list of atoms
=r1 GROUPBSecond list of atoms (if empty, N*(N-1)/2 pairs in GROUPA are counted)
=r8 R_0The r_0 parameter of the switching function
=0.5 NN The n parameter of the switching function 
=8 MM The m parameter of the switching function; 0 implies 2*NN
=12  NLIST Use a neighbor list to speed up the calculation
 NL_CUTOFFThe cutoff for the neighbor list
=0.75 NL_STRIDEThe frequency with which we are updating the atoms in the neighbor list=10 
The COORDINATION action with label c7 calculates the following quantities: Quantity    Description  
c7.value the value of the coordinationc7: COORDINATIONCalculate coordination numbers. This action uses the defaults shown here. More details
 GROUPAFirst list of atoms
=r1 GROUPBSecond list of atoms (if empty, N*(N-1)/2 pairs in GROUPA are counted)
=r8 R_0The r_0 parameter of the switching function
=0.5 NN The n parameter of the switching function 
=8 MM The m parameter of the switching function; 0 implies 2*NN
=12  NLIST Use a neighbor list to speed up the calculation
 NL_CUTOFFThe cutoff for the neighbor list
=0.75 NL_STRIDEThe frequency with which we are updating the atoms in the neighbor list
=10  D_0 The d_0 parameter of the switching function=0.0
c8: COORDINATIONCalculate coordination numbers. This action has hidden defaults. More details
 GROUPAFirst list of atoms
=r1 GROUPBSecond list of atoms (if empty, N*(N-1)/2 pairs in GROUPA are counted)
=r9 R_0The r_0 parameter of the switching function
=0.5 NN The n parameter of the switching function 
=8 MM The m parameter of the switching function; 0 implies 2*NN
=12  NLIST Use a neighbor list to speed up the calculation
 NL_CUTOFFThe cutoff for the neighbor list
=0.75 NL_STRIDEThe frequency with which we are updating the atoms in the neighbor list=10 
The COORDINATION action with label c8 calculates the following quantities: Quantity    Description  
c8.value the value of the coordinationc8: COORDINATIONCalculate coordination numbers. This action uses the defaults shown here. More details
 GROUPAFirst list of atoms
=r1 GROUPBSecond list of atoms (if empty, N*(N-1)/2 pairs in GROUPA are counted)
=r9 R_0The r_0 parameter of the switching function
=0.5 NN The n parameter of the switching function 
=8 MM The m parameter of the switching function; 0 implies 2*NN
=12  NLIST Use a neighbor list to speed up the calculation
 NL_CUTOFFThe cutoff for the neighbor list
=0.75 NL_STRIDEThe frequency with which we are updating the atoms in the neighbor list
=10  D_0 The d_0 parameter of the switching function=0.0
c9: COORDINATIONCalculate coordination numbers. This action has hidden defaults. More details
 GROUPAFirst list of atoms
=r1 GROUPBSecond list of atoms (if empty, N*(N-1)/2 pairs in GROUPA are counted)
=r10 R_0The r_0 parameter of the switching function
=0.5 NN The n parameter of the switching function 
=8 MM The m parameter of the switching function; 0 implies 2*NN
=12  NLIST Use a neighbor list to speed up the calculation
 NL_CUTOFFThe cutoff for the neighbor list
=0.75 NL_STRIDEThe frequency with which we are updating the atoms in the neighbor list=10 
The COORDINATION action with label c9 calculates the following quantities: Quantity    Description  
c9.value the value of the coordinationc9: COORDINATIONCalculate coordination numbers. This action uses the defaults shown here. More details
 GROUPAFirst list of atoms
=r1 GROUPBSecond list of atoms (if empty, N*(N-1)/2 pairs in GROUPA are counted)
=r10 R_0The r_0 parameter of the switching function
=0.5 NN The n parameter of the switching function 
=8 MM The m parameter of the switching function; 0 implies 2*NN
=12  NLIST Use a neighbor list to speed up the calculation
 NL_CUTOFFThe cutoff for the neighbor list
=0.75 NL_STRIDEThe frequency with which we are updating the atoms in the neighbor list
=10  D_0 The d_0 parameter of the switching function=0.0
c10: COORDINATIONCalculate coordination numbers. This action has hidden defaults. More details
 GROUPAFirst list of atoms
=r1 GROUPBSecond list of atoms (if empty, N*(N-1)/2 pairs in GROUPA are counted)
=r11 R_0The r_0 parameter of the switching function
=0.5 NN The n parameter of the switching function 
=8 MM The m parameter of the switching function; 0 implies 2*NN
=12  NLIST Use a neighbor list to speed up the calculation
 NL_CUTOFFThe cutoff for the neighbor list
=0.75 NL_STRIDEThe frequency with which we are updating the atoms in the neighbor list=10 
The COORDINATION action with label c10 calculates the following quantities: Quantity    Description  
c10.value the value of the coordinationc10: COORDINATIONCalculate coordination numbers. This action uses the defaults shown here. More details
 GROUPAFirst list of atoms
=r1 GROUPBSecond list of atoms (if empty, N*(N-1)/2 pairs in GROUPA are counted)
=r11 R_0The r_0 parameter of the switching function
=0.5 NN The n parameter of the switching function 
=8 MM The m parameter of the switching function; 0 implies 2*NN
=12  NLIST Use a neighbor list to speed up the calculation
 NL_CUTOFFThe cutoff for the neighbor list
=0.75 NL_STRIDEThe frequency with which we are updating the atoms in the neighbor list
=10  D_0 The d_0 parameter of the switching function=0.0
c11: COORDINATIONCalculate coordination numbers. This action has hidden defaults. More details
 GROUPAFirst list of atoms
=r1 GROUPBSecond list of atoms (if empty, N*(N-1)/2 pairs in GROUPA are counted)
=r12 R_0The r_0 parameter of the switching function
=0.5 NN The n parameter of the switching function 
=8 MM The m parameter of the switching function; 0 implies 2*NN
=12  NLIST Use a neighbor list to speed up the calculation
 NL_CUTOFFThe cutoff for the neighbor list
=0.75 NL_STRIDEThe frequency with which we are updating the atoms in the neighbor list=10 
The COORDINATION action with label c11 calculates the following quantities: Quantity    Description  
c11.value the value of the coordinationc11: COORDINATIONCalculate coordination numbers. This action uses the defaults shown here. More details
 GROUPAFirst list of atoms
=r1 GROUPBSecond list of atoms (if empty, N*(N-1)/2 pairs in GROUPA are counted)
=r12 R_0The r_0 parameter of the switching function
=0.5 NN The n parameter of the switching function 
=8 MM The m parameter of the switching function; 0 implies 2*NN
=12  NLIST Use a neighbor list to speed up the calculation
 NL_CUTOFFThe cutoff for the neighbor list
=0.75 NL_STRIDEThe frequency with which we are updating the atoms in the neighbor list
=10  D_0 The d_0 parameter of the switching function=0.0
c12: COORDINATIONCalculate coordination numbers. This action has hidden defaults. More details
 GROUPAFirst list of atoms
=r2 GROUPBSecond list of atoms (if empty, N*(N-1)/2 pairs in GROUPA are counted)
=r3 R_0The r_0 parameter of the switching function
=0.5 NN The n parameter of the switching function 
=8 MM The m parameter of the switching function; 0 implies 2*NN
=12  NLIST Use a neighbor list to speed up the calculation
 NL_CUTOFFThe cutoff for the neighbor list
=0.75 NL_STRIDEThe frequency with which we are updating the atoms in the neighbor list=10
The COORDINATION action with label c12 calculates the following quantities: Quantity    Description  
c12.value the value of the coordinationc12: COORDINATIONCalculate coordination numbers. This action uses the defaults shown here. More details
 GROUPAFirst list of atoms
=r2 GROUPBSecond list of atoms (if empty, N*(N-1)/2 pairs in GROUPA are counted)
=r3 R_0The r_0 parameter of the switching function
=0.5 NN The n parameter of the switching function 
=8 MM The m parameter of the switching function; 0 implies 2*NN
=12  NLIST Use a neighbor list to speed up the calculation
 NL_CUTOFFThe cutoff for the neighbor list
=0.75 NL_STRIDEThe frequency with which we are updating the atoms in the neighbor list
=10  D_0 The d_0 parameter of the switching function=0.0
c13: COORDINATIONCalculate coordination numbers. This action has hidden defaults. More details
 GROUPAFirst list of atoms
=r2 GROUPBSecond list of atoms (if empty, N*(N-1)/2 pairs in GROUPA are counted)
=r4 R_0The r_0 parameter of the switching function
=0.5 NN The n parameter of the switching function 
=8 MM The m parameter of the switching function; 0 implies 2*NN
=12  NLIST Use a neighbor list to speed up the calculation
 NL_CUTOFFThe cutoff for the neighbor list
=0.75 NL_STRIDEThe frequency with which we are updating the atoms in the neighbor list=10 
The COORDINATION action with label c13 calculates the following quantities: Quantity    Description  
c13.value the value of the coordinationc13: COORDINATIONCalculate coordination numbers. This action uses the defaults shown here. More details
 GROUPAFirst list of atoms
=r2 GROUPBSecond list of atoms (if empty, N*(N-1)/2 pairs in GROUPA are counted)
=r4 R_0The r_0 parameter of the switching function
=0.5 NN The n parameter of the switching function 
=8 MM The m parameter of the switching function; 0 implies 2*NN
=12  NLIST Use a neighbor list to speed up the calculation
 NL_CUTOFFThe cutoff for the neighbor list
=0.75 NL_STRIDEThe frequency with which we are updating the atoms in the neighbor list
=10  D_0 The d_0 parameter of the switching function=0.0
c14: COORDINATIONCalculate coordination numbers. This action has hidden defaults. More details
 GROUPAFirst list of atoms
=r2 GROUPBSecond list of atoms (if empty, N*(N-1)/2 pairs in GROUPA are counted)
=r5 R_0The r_0 parameter of the switching function
=0.5 NN The n parameter of the switching function 
=8 MM The m parameter of the switching function; 0 implies 2*NN
=12  NLIST Use a neighbor list to speed up the calculation
 NL_CUTOFFThe cutoff for the neighbor list
=0.75 NL_STRIDEThe frequency with which we are updating the atoms in the neighbor list=10 
The COORDINATION action with label c14 calculates the following quantities: Quantity    Description  
c14.value the value of the coordinationc14: COORDINATIONCalculate coordination numbers. This action uses the defaults shown here. More details
 GROUPAFirst list of atoms
=r2 GROUPBSecond list of atoms (if empty, N*(N-1)/2 pairs in GROUPA are counted)
=r5 R_0The r_0 parameter of the switching function
=0.5 NN The n parameter of the switching function 
=8 MM The m parameter of the switching function; 0 implies 2*NN
=12  NLIST Use a neighbor list to speed up the calculation
 NL_CUTOFFThe cutoff for the neighbor list
=0.75 NL_STRIDEThe frequency with which we are updating the atoms in the neighbor list
=10  D_0 The d_0 parameter of the switching function=0.0
c15: COORDINATIONCalculate coordination numbers. This action has hidden defaults. More details
 GROUPAFirst list of atoms
=r2 GROUPBSecond list of atoms (if empty, N*(N-1)/2 pairs in GROUPA are counted)
=r6 R_0The r_0 parameter of the switching function
=0.5 NN The n parameter of the switching function 
=8 MM The m parameter of the switching function; 0 implies 2*NN
=12  NLIST Use a neighbor list to speed up the calculation
 NL_CUTOFFThe cutoff for the neighbor list
=0.75 NL_STRIDEThe frequency with which we are updating the atoms in the neighbor list=10 
The COORDINATION action with label c15 calculates the following quantities: Quantity    Description  
c15.value the value of the coordinationc15: COORDINATIONCalculate coordination numbers. This action uses the defaults shown here. More details
 GROUPAFirst list of atoms
=r2 GROUPBSecond list of atoms (if empty, N*(N-1)/2 pairs in GROUPA are counted)
=r6 R_0The r_0 parameter of the switching function
=0.5 NN The n parameter of the switching function 
=8 MM The m parameter of the switching function; 0 implies 2*NN
=12  NLIST Use a neighbor list to speed up the calculation
 NL_CUTOFFThe cutoff for the neighbor list
=0.75 NL_STRIDEThe frequency with which we are updating the atoms in the neighbor list
=10  D_0 The d_0 parameter of the switching function=0.0
c16: COORDINATIONCalculate coordination numbers. This action has hidden defaults. More details
 GROUPAFirst list of atoms
=r2 GROUPBSecond list of atoms (if empty, N*(N-1)/2 pairs in GROUPA are counted)
=r7 R_0The r_0 parameter of the switching function
=0.5 NN The n parameter of the switching function 
=8 MM The m parameter of the switching function; 0 implies 2*NN
=12  NLIST Use a neighbor list to speed up the calculation
 NL_CUTOFFThe cutoff for the neighbor list
=0.75 NL_STRIDEThe frequency with which we are updating the atoms in the neighbor list=10 
The COORDINATION action with label c16 calculates the following quantities: Quantity    Description  
c16.value the value of the coordinationc16: COORDINATIONCalculate coordination numbers. This action uses the defaults shown here. More details
 GROUPAFirst list of atoms
=r2 GROUPBSecond list of atoms (if empty, N*(N-1)/2 pairs in GROUPA are counted)
=r7 R_0The r_0 parameter of the switching function
=0.5 NN The n parameter of the switching function 
=8 MM The m parameter of the switching function; 0 implies 2*NN
=12  NLIST Use a neighbor list to speed up the calculation
 NL_CUTOFFThe cutoff for the neighbor list
=0.75 NL_STRIDEThe frequency with which we are updating the atoms in the neighbor list
=10  D_0 The d_0 parameter of the switching function=0.0
c17: COORDINATIONCalculate coordination numbers. This action has hidden defaults. More details
 GROUPAFirst list of atoms
=r2 GROUPBSecond list of atoms (if empty, N*(N-1)/2 pairs in GROUPA are counted)
=r8 R_0The r_0 parameter of the switching function
=0.5 NN The n parameter of the switching function 
=8 MM The m parameter of the switching function; 0 implies 2*NN
=12  NLIST Use a neighbor list to speed up the calculation
 NL_CUTOFFThe cutoff for the neighbor list
=0.75 NL_STRIDEThe frequency with which we are updating the atoms in the neighbor list=10 
The COORDINATION action with label c17 calculates the following quantities: Quantity    Description  
c17.value the value of the coordinationc17: COORDINATIONCalculate coordination numbers. This action uses the defaults shown here. More details
 GROUPAFirst list of atoms
=r2 GROUPBSecond list of atoms (if empty, N*(N-1)/2 pairs in GROUPA are counted)
=r8 R_0The r_0 parameter of the switching function
=0.5 NN The n parameter of the switching function 
=8 MM The m parameter of the switching function; 0 implies 2*NN
=12  NLIST Use a neighbor list to speed up the calculation
 NL_CUTOFFThe cutoff for the neighbor list
=0.75 NL_STRIDEThe frequency with which we are updating the atoms in the neighbor list
=10  D_0 The d_0 parameter of the switching function=0.0
c18: COORDINATIONCalculate coordination numbers. This action has hidden defaults. More details
 GROUPAFirst list of atoms
=r2 GROUPBSecond list of atoms (if empty, N*(N-1)/2 pairs in GROUPA are counted)
=r9 R_0The r_0 parameter of the switching function
=0.5 NN The n parameter of the switching function 
=8 MM The m parameter of the switching function; 0 implies 2*NN
=12  NLIST Use a neighbor list to speed up the calculation
 NL_CUTOFFThe cutoff for the neighbor list
=0.75 NL_STRIDEThe frequency with which we are updating the atoms in the neighbor list=10 
The COORDINATION action with label c18 calculates the following quantities: Quantity    Description  
c18.value the value of the coordinationc18: COORDINATIONCalculate coordination numbers. This action uses the defaults shown here. More details
 GROUPAFirst list of atoms
=r2 GROUPBSecond list of atoms (if empty, N*(N-1)/2 pairs in GROUPA are counted)
=r9 R_0The r_0 parameter of the switching function
=0.5 NN The n parameter of the switching function 
=8 MM The m parameter of the switching function; 0 implies 2*NN
=12  NLIST Use a neighbor list to speed up the calculation
 NL_CUTOFFThe cutoff for the neighbor list
=0.75 NL_STRIDEThe frequency with which we are updating the atoms in the neighbor list
=10  D_0 The d_0 parameter of the switching function=0.0
c19: COORDINATIONCalculate coordination numbers. This action has hidden defaults. More details
 GROUPAFirst list of atoms
=r2 GROUPBSecond list of atoms (if empty, N*(N-1)/2 pairs in GROUPA are counted)
=r10 R_0The r_0 parameter of the switching function
=0.5 NN The n parameter of the switching function 
=8 MM The m parameter of the switching function; 0 implies 2*NN
=12  NLIST Use a neighbor list to speed up the calculation
 NL_CUTOFFThe cutoff for the neighbor list
=0.75 NL_STRIDEThe frequency with which we are updating the atoms in the neighbor list=10 
The COORDINATION action with label c19 calculates the following quantities: Quantity    Description  
c19.value the value of the coordinationc19: COORDINATIONCalculate coordination numbers. This action uses the defaults shown here. More details
 GROUPAFirst list of atoms
=r2 GROUPBSecond list of atoms (if empty, N*(N-1)/2 pairs in GROUPA are counted)
=r10 R_0The r_0 parameter of the switching function
=0.5 NN The n parameter of the switching function 
=8 MM The m parameter of the switching function; 0 implies 2*NN
=12  NLIST Use a neighbor list to speed up the calculation
 NL_CUTOFFThe cutoff for the neighbor list
=0.75 NL_STRIDEThe frequency with which we are updating the atoms in the neighbor list
=10  D_0 The d_0 parameter of the switching function=0.0
c20: COORDINATIONCalculate coordination numbers. This action has hidden defaults. More details
 GROUPAFirst list of atoms
=r2 GROUPBSecond list of atoms (if empty, N*(N-1)/2 pairs in GROUPA are counted)
=r11 R_0The r_0 parameter of the switching function
=0.5 NN The n parameter of the switching function 
=8 MM The m parameter of the switching function; 0 implies 2*NN
=12  NLIST Use a neighbor list to speed up the calculation
 NL_CUTOFFThe cutoff for the neighbor list
=0.75 NL_STRIDEThe frequency with which we are updating the atoms in the neighbor list=10 
The COORDINATION action with label c20 calculates the following quantities: Quantity    Description  
c20.value the value of the coordinationc20: COORDINATIONCalculate coordination numbers. This action uses the defaults shown here. More details
 GROUPAFirst list of atoms
=r2 GROUPBSecond list of atoms (if empty, N*(N-1)/2 pairs in GROUPA are counted)
=r11 R_0The r_0 parameter of the switching function
=0.5 NN The n parameter of the switching function 
=8 MM The m parameter of the switching function; 0 implies 2*NN
=12  NLIST Use a neighbor list to speed up the calculation
 NL_CUTOFFThe cutoff for the neighbor list
=0.75 NL_STRIDEThe frequency with which we are updating the atoms in the neighbor list
=10  D_0 The d_0 parameter of the switching function=0.0
c21: COORDINATIONCalculate coordination numbers. This action has hidden defaults. More details
 GROUPAFirst list of atoms
=r2 GROUPBSecond list of atoms (if empty, N*(N-1)/2 pairs in GROUPA are counted)
=r12 R_0The r_0 parameter of the switching function
=0.5 NN The n parameter of the switching function 
=8 MM The m parameter of the switching function; 0 implies 2*NN
=12  NLIST Use a neighbor list to speed up the calculation
 NL_CUTOFFThe cutoff for the neighbor list
=0.75 NL_STRIDEThe frequency with which we are updating the atoms in the neighbor list=10
The COORDINATION action with label c21 calculates the following quantities: Quantity    Description  
c21.value the value of the coordinationc21: COORDINATIONCalculate coordination numbers. This action uses the defaults shown here. More details
 GROUPAFirst list of atoms
=r2 GROUPBSecond list of atoms (if empty, N*(N-1)/2 pairs in GROUPA are counted)
=r12 R_0The r_0 parameter of the switching function
=0.5 NN The n parameter of the switching function 
=8 MM The m parameter of the switching function; 0 implies 2*NN
=12  NLIST Use a neighbor list to speed up the calculation
 NL_CUTOFFThe cutoff for the neighbor list
=0.75 NL_STRIDEThe frequency with which we are updating the atoms in the neighbor list
=10  D_0 The d_0 parameter of the switching function=0.0
c22: COORDINATIONCalculate coordination numbers. This action has hidden defaults. More details
 GROUPAFirst list of atoms
=r3 GROUPBSecond list of atoms (if empty, N*(N-1)/2 pairs in GROUPA are counted)
=r4 R_0The r_0 parameter of the switching function
=0.5 NN The n parameter of the switching function 
=8 MM The m parameter of the switching function; 0 implies 2*NN
=12  NLIST Use a neighbor list to speed up the calculation
 NL_CUTOFFThe cutoff for the neighbor list
=0.75 NL_STRIDEThe frequency with which we are updating the atoms in the neighbor list=10
The COORDINATION action with label c22 calculates the following quantities: Quantity    Description  
c22.value the value of the coordinationc22: COORDINATIONCalculate coordination numbers. This action uses the defaults shown here. More details
 GROUPAFirst list of atoms
=r3 GROUPBSecond list of atoms (if empty, N*(N-1)/2 pairs in GROUPA are counted)
=r4 R_0The r_0 parameter of the switching function
=0.5 NN The n parameter of the switching function 
=8 MM The m parameter of the switching function; 0 implies 2*NN
=12  NLIST Use a neighbor list to speed up the calculation
 NL_CUTOFFThe cutoff for the neighbor list
=0.75 NL_STRIDEThe frequency with which we are updating the atoms in the neighbor list
=10  D_0 The d_0 parameter of the switching function=0.0
c23: COORDINATIONCalculate coordination numbers. This action has hidden defaults. More details
 GROUPAFirst list of atoms
=r3 GROUPBSecond list of atoms (if empty, N*(N-1)/2 pairs in GROUPA are counted)
=r5 R_0The r_0 parameter of the switching function
=0.5 NN The n parameter of the switching function 
=8 MM The m parameter of the switching function; 0 implies 2*NN
=12  NLIST Use a neighbor list to speed up the calculation
 NL_CUTOFFThe cutoff for the neighbor list
=0.75 NL_STRIDEThe frequency with which we are updating the atoms in the neighbor list=10
The COORDINATION action with label c23 calculates the following quantities: Quantity    Description  
c23.value the value of the coordinationc23: COORDINATIONCalculate coordination numbers. This action uses the defaults shown here. More details
 GROUPAFirst list of atoms
=r3 GROUPBSecond list of atoms (if empty, N*(N-1)/2 pairs in GROUPA are counted)
=r5 R_0The r_0 parameter of the switching function
=0.5 NN The n parameter of the switching function 
=8 MM The m parameter of the switching function; 0 implies 2*NN
=12  NLIST Use a neighbor list to speed up the calculation
 NL_CUTOFFThe cutoff for the neighbor list
=0.75 NL_STRIDEThe frequency with which we are updating the atoms in the neighbor list
=10  D_0 The d_0 parameter of the switching function=0.0
c24: COORDINATIONCalculate coordination numbers. This action has hidden defaults. More details
 GROUPAFirst list of atoms
=r3 GROUPBSecond list of atoms (if empty, N*(N-1)/2 pairs in GROUPA are counted)
=r6 R_0The r_0 parameter of the switching function
=0.5 NN The n parameter of the switching function 
=8 MM The m parameter of the switching function; 0 implies 2*NN
=12  NLIST Use a neighbor list to speed up the calculation
 NL_CUTOFFThe cutoff for the neighbor list
=0.75 NL_STRIDEThe frequency with which we are updating the atoms in the neighbor list=10
The COORDINATION action with label c24 calculates the following quantities: Quantity    Description  
c24.value the value of the coordinationc24: COORDINATIONCalculate coordination numbers. This action uses the defaults shown here. More details
 GROUPAFirst list of atoms
=r3 GROUPBSecond list of atoms (if empty, N*(N-1)/2 pairs in GROUPA are counted)
=r6 R_0The r_0 parameter of the switching function
=0.5 NN The n parameter of the switching function 
=8 MM The m parameter of the switching function; 0 implies 2*NN
=12  NLIST Use a neighbor list to speed up the calculation
 NL_CUTOFFThe cutoff for the neighbor list
=0.75 NL_STRIDEThe frequency with which we are updating the atoms in the neighbor list
=10  D_0 The d_0 parameter of the switching function=0.0
c25: COORDINATIONCalculate coordination numbers. This action has hidden defaults. More details
 GROUPAFirst list of atoms
=r3 GROUPBSecond list of atoms (if empty, N*(N-1)/2 pairs in GROUPA are counted)
=r7 R_0The r_0 parameter of the switching function
=0.5 NN The n parameter of the switching function 
=8 MM The m parameter of the switching function; 0 implies 2*NN
=12  NLIST Use a neighbor list to speed up the calculation
 NL_CUTOFFThe cutoff for the neighbor list
=0.75 NL_STRIDEThe frequency with which we are updating the atoms in the neighbor list=10
The COORDINATION action with label c25 calculates the following quantities: Quantity    Description  
c25.value the value of the coordinationc25: COORDINATIONCalculate coordination numbers. This action uses the defaults shown here. More details
 GROUPAFirst list of atoms
=r3 GROUPBSecond list of atoms (if empty, N*(N-1)/2 pairs in GROUPA are counted)
=r7 R_0The r_0 parameter of the switching function
=0.5 NN The n parameter of the switching function 
=8 MM The m parameter of the switching function; 0 implies 2*NN
=12  NLIST Use a neighbor list to speed up the calculation
 NL_CUTOFFThe cutoff for the neighbor list
=0.75 NL_STRIDEThe frequency with which we are updating the atoms in the neighbor list
=10  D_0 The d_0 parameter of the switching function=0.0
c26: COORDINATIONCalculate coordination numbers. This action has hidden defaults. More details
 GROUPAFirst list of atoms
=r3 GROUPBSecond list of atoms (if empty, N*(N-1)/2 pairs in GROUPA are counted)
=r8 R_0The r_0 parameter of the switching function
=0.5 NN The n parameter of the switching function 
=8 MM The m parameter of the switching function; 0 implies 2*NN
=12  NLIST Use a neighbor list to speed up the calculation
 NL_CUTOFFThe cutoff for the neighbor list
=0.75 NL_STRIDEThe frequency with which we are updating the atoms in the neighbor list=10
The COORDINATION action with label c26 calculates the following quantities: Quantity    Description  
c26.value the value of the coordinationc26: COORDINATIONCalculate coordination numbers. This action uses the defaults shown here. More details
 GROUPAFirst list of atoms
=r3 GROUPBSecond list of atoms (if empty, N*(N-1)/2 pairs in GROUPA are counted)
=r8 R_0The r_0 parameter of the switching function
=0.5 NN The n parameter of the switching function 
=8 MM The m parameter of the switching function; 0 implies 2*NN
=12  NLIST Use a neighbor list to speed up the calculation
 NL_CUTOFFThe cutoff for the neighbor list
=0.75 NL_STRIDEThe frequency with which we are updating the atoms in the neighbor list
=10  D_0 The d_0 parameter of the switching function=0.0
c27: COORDINATIONCalculate coordination numbers. This action has hidden defaults. More details
 GROUPAFirst list of atoms
=r3 GROUPBSecond list of atoms (if empty, N*(N-1)/2 pairs in GROUPA are counted)
=r9 R_0The r_0 parameter of the switching function
=0.5 NN The n parameter of the switching function 
=8 MM The m parameter of the switching function; 0 implies 2*NN
=12  NLIST Use a neighbor list to speed up the calculation
 NL_CUTOFFThe cutoff for the neighbor list
=0.75 NL_STRIDEThe frequency with which we are updating the atoms in the neighbor list=10
The COORDINATION action with label c27 calculates the following quantities: Quantity    Description  
c27.value the value of the coordinationc27: COORDINATIONCalculate coordination numbers. This action uses the defaults shown here. More details
 GROUPAFirst list of atoms
=r3 GROUPBSecond list of atoms (if empty, N*(N-1)/2 pairs in GROUPA are counted)
=r9 R_0The r_0 parameter of the switching function
=0.5 NN The n parameter of the switching function 
=8 MM The m parameter of the switching function; 0 implies 2*NN
=12  NLIST Use a neighbor list to speed up the calculation
 NL_CUTOFFThe cutoff for the neighbor list
=0.75 NL_STRIDEThe frequency with which we are updating the atoms in the neighbor list
=10  D_0 The d_0 parameter of the switching function=0.0
c28: COORDINATIONCalculate coordination numbers. This action has hidden defaults. More details
 GROUPAFirst list of atoms
=r3 GROUPBSecond list of atoms (if empty, N*(N-1)/2 pairs in GROUPA are counted)
=r10 R_0The r_0 parameter of the switching function
=0.5 NN The n parameter of the switching function 
=8 MM The m parameter of the switching function; 0 implies 2*NN
=12  NLIST Use a neighbor list to speed up the calculation
 NL_CUTOFFThe cutoff for the neighbor list
=0.75 NL_STRIDEThe frequency with which we are updating the atoms in the neighbor list=10
The COORDINATION action with label c28 calculates the following quantities: Quantity    Description  
c28.value the value of the coordinationc28: COORDINATIONCalculate coordination numbers. This action uses the defaults shown here. More details
 GROUPAFirst list of atoms
=r3 GROUPBSecond list of atoms (if empty, N*(N-1)/2 pairs in GROUPA are counted)
=r10 R_0The r_0 parameter of the switching function
=0.5 NN The n parameter of the switching function 
=8 MM The m parameter of the switching function; 0 implies 2*NN
=12  NLIST Use a neighbor list to speed up the calculation
 NL_CUTOFFThe cutoff for the neighbor list
=0.75 NL_STRIDEThe frequency with which we are updating the atoms in the neighbor list
=10  D_0 The d_0 parameter of the switching function=0.0
c29: COORDINATIONCalculate coordination numbers. This action has hidden defaults. More details
 GROUPAFirst list of atoms
=r3 GROUPBSecond list of atoms (if empty, N*(N-1)/2 pairs in GROUPA are counted)
=r11 R_0The r_0 parameter of the switching function
=0.5 NN The n parameter of the switching function 
=8 MM The m parameter of the switching function; 0 implies 2*NN
=12  NLIST Use a neighbor list to speed up the calculation
 NL_CUTOFFThe cutoff for the neighbor list
=0.75 NL_STRIDEThe frequency with which we are updating the atoms in the neighbor list=10
The COORDINATION action with label c29 calculates the following quantities: Quantity    Description  
c29.value the value of the coordinationc29: COORDINATIONCalculate coordination numbers. This action uses the defaults shown here. More details
 GROUPAFirst list of atoms
=r3 GROUPBSecond list of atoms (if empty, N*(N-1)/2 pairs in GROUPA are counted)
=r11 R_0The r_0 parameter of the switching function
=0.5 NN The n parameter of the switching function 
=8 MM The m parameter of the switching function; 0 implies 2*NN
=12  NLIST Use a neighbor list to speed up the calculation
 NL_CUTOFFThe cutoff for the neighbor list
=0.75 NL_STRIDEThe frequency with which we are updating the atoms in the neighbor list
=10  D_0 The d_0 parameter of the switching function=0.0
c30: COORDINATIONCalculate coordination numbers. This action has hidden defaults. More details
 GROUPAFirst list of atoms
=r3 GROUPBSecond list of atoms (if empty, N*(N-1)/2 pairs in GROUPA are counted)
=r12 R_0The r_0 parameter of the switching function
=0.5 NN The n parameter of the switching function 
=8 MM The m parameter of the switching function; 0 implies 2*NN
=12  NLIST Use a neighbor list to speed up the calculation
 NL_CUTOFFThe cutoff for the neighbor list
=0.75 NL_STRIDEThe frequency with which we are updating the atoms in the neighbor list=10
The COORDINATION action with label c30 calculates the following quantities: Quantity    Description  
c30.value the value of the coordinationc30: COORDINATIONCalculate coordination numbers. This action uses the defaults shown here. More details
 GROUPAFirst list of atoms
=r3 GROUPBSecond list of atoms (if empty, N*(N-1)/2 pairs in GROUPA are counted)
=r12 R_0The r_0 parameter of the switching function
=0.5 NN The n parameter of the switching function 
=8 MM The m parameter of the switching function; 0 implies 2*NN
=12  NLIST Use a neighbor list to speed up the calculation
 NL_CUTOFFThe cutoff for the neighbor list
=0.75 NL_STRIDEThe frequency with which we are updating the atoms in the neighbor list
=10  D_0 The d_0 parameter of the switching function=0.0
c31: COORDINATIONCalculate coordination numbers. This action has hidden defaults. More details
 GROUPAFirst list of atoms
=r4 GROUPBSecond list of atoms (if empty, N*(N-1)/2 pairs in GROUPA are counted)
=r5 R_0The r_0 parameter of the switching function
=0.5 NN The n parameter of the switching function 
=8 MM The m parameter of the switching function; 0 implies 2*NN
=12  NLIST Use a neighbor list to speed up the calculation
 NL_CUTOFFThe cutoff for the neighbor list
=0.75 NL_STRIDEThe frequency with which we are updating the atoms in the neighbor list=10
The COORDINATION action with label c31 calculates the following quantities: Quantity    Description  
c31.value the value of the coordinationc31: COORDINATIONCalculate coordination numbers. This action uses the defaults shown here. More details
 GROUPAFirst list of atoms
=r4 GROUPBSecond list of atoms (if empty, N*(N-1)/2 pairs in GROUPA are counted)
=r5 R_0The r_0 parameter of the switching function
=0.5 NN The n parameter of the switching function 
=8 MM The m parameter of the switching function; 0 implies 2*NN
=12  NLIST Use a neighbor list to speed up the calculation
 NL_CUTOFFThe cutoff for the neighbor list
=0.75 NL_STRIDEThe frequency with which we are updating the atoms in the neighbor list
=10  D_0 The d_0 parameter of the switching function=0.0
c32: COORDINATIONCalculate coordination numbers. This action has hidden defaults. More details
 GROUPAFirst list of atoms
=r4 GROUPBSecond list of atoms (if empty, N*(N-1)/2 pairs in GROUPA are counted)
=r6 R_0The r_0 parameter of the switching function
=0.5 NN The n parameter of the switching function 
=8 MM The m parameter of the switching function; 0 implies 2*NN
=12  NLIST Use a neighbor list to speed up the calculation
 NL_CUTOFFThe cutoff for the neighbor list
=0.75 NL_STRIDEThe frequency with which we are updating the atoms in the neighbor list=10
The COORDINATION action with label c32 calculates the following quantities: Quantity    Description  
c32.value the value of the coordinationc32: COORDINATIONCalculate coordination numbers. This action uses the defaults shown here. More details
 GROUPAFirst list of atoms
=r4 GROUPBSecond list of atoms (if empty, N*(N-1)/2 pairs in GROUPA are counted)
=r6 R_0The r_0 parameter of the switching function
=0.5 NN The n parameter of the switching function 
=8 MM The m parameter of the switching function; 0 implies 2*NN
=12  NLIST Use a neighbor list to speed up the calculation
 NL_CUTOFFThe cutoff for the neighbor list
=0.75 NL_STRIDEThe frequency with which we are updating the atoms in the neighbor list
=10  D_0 The d_0 parameter of the switching function=0.0
c33: COORDINATIONCalculate coordination numbers. This action has hidden defaults. More details
 GROUPAFirst list of atoms
=r4 GROUPBSecond list of atoms (if empty, N*(N-1)/2 pairs in GROUPA are counted)
=r7 R_0The r_0 parameter of the switching function
=0.5 NN The n parameter of the switching function 
=8 MM The m parameter of the switching function; 0 implies 2*NN
=12  NLIST Use a neighbor list to speed up the calculation
 NL_CUTOFFThe cutoff for the neighbor list
=0.75 NL_STRIDEThe frequency with which we are updating the atoms in the neighbor list=10
The COORDINATION action with label c33 calculates the following quantities: Quantity    Description  
c33.value the value of the coordinationc33: COORDINATIONCalculate coordination numbers. This action uses the defaults shown here. More details
 GROUPAFirst list of atoms
=r4 GROUPBSecond list of atoms (if empty, N*(N-1)/2 pairs in GROUPA are counted)
=r7 R_0The r_0 parameter of the switching function
=0.5 NN The n parameter of the switching function 
=8 MM The m parameter of the switching function; 0 implies 2*NN
=12  NLIST Use a neighbor list to speed up the calculation
 NL_CUTOFFThe cutoff for the neighbor list
=0.75 NL_STRIDEThe frequency with which we are updating the atoms in the neighbor list
=10  D_0 The d_0 parameter of the switching function=0.0
c34: COORDINATIONCalculate coordination numbers. This action has hidden defaults. More details
 GROUPAFirst list of atoms
=r4 GROUPBSecond list of atoms (if empty, N*(N-1)/2 pairs in GROUPA are counted)
=r8 R_0The r_0 parameter of the switching function
=0.5 NN The n parameter of the switching function 
=8 MM The m parameter of the switching function; 0 implies 2*NN
=12  NLIST Use a neighbor list to speed up the calculation
 NL_CUTOFFThe cutoff for the neighbor list
=0.75 NL_STRIDEThe frequency with which we are updating the atoms in the neighbor list=10
The COORDINATION action with label c34 calculates the following quantities: Quantity    Description  
c34.value the value of the coordinationc34: COORDINATIONCalculate coordination numbers. This action uses the defaults shown here. More details
 GROUPAFirst list of atoms
=r4 GROUPBSecond list of atoms (if empty, N*(N-1)/2 pairs in GROUPA are counted)
=r8 R_0The r_0 parameter of the switching function
=0.5 NN The n parameter of the switching function 
=8 MM The m parameter of the switching function; 0 implies 2*NN
=12  NLIST Use a neighbor list to speed up the calculation
 NL_CUTOFFThe cutoff for the neighbor list
=0.75 NL_STRIDEThe frequency with which we are updating the atoms in the neighbor list
=10  D_0 The d_0 parameter of the switching function=0.0
c35: COORDINATIONCalculate coordination numbers. This action has hidden defaults. More details
 GROUPAFirst list of atoms
=r4 GROUPBSecond list of atoms (if empty, N*(N-1)/2 pairs in GROUPA are counted)
=r9 R_0The r_0 parameter of the switching function
=0.5 NN The n parameter of the switching function 
=8 MM The m parameter of the switching function; 0 implies 2*NN
=12  NLIST Use a neighbor list to speed up the calculation
 NL_CUTOFFThe cutoff for the neighbor list
=0.75 NL_STRIDEThe frequency with which we are updating the atoms in the neighbor list=10
The COORDINATION action with label c35 calculates the following quantities: Quantity    Description  
c35.value the value of the coordinationc35: COORDINATIONCalculate coordination numbers. This action uses the defaults shown here. More details
 GROUPAFirst list of atoms
=r4 GROUPBSecond list of atoms (if empty, N*(N-1)/2 pairs in GROUPA are counted)
=r9 R_0The r_0 parameter of the switching function
=0.5 NN The n parameter of the switching function 
=8 MM The m parameter of the switching function; 0 implies 2*NN
=12  NLIST Use a neighbor list to speed up the calculation
 NL_CUTOFFThe cutoff for the neighbor list
=0.75 NL_STRIDEThe frequency with which we are updating the atoms in the neighbor list
=10  D_0 The d_0 parameter of the switching function=0.0
c36: COORDINATIONCalculate coordination numbers. This action has hidden defaults. More details
 GROUPAFirst list of atoms
=r4 GROUPBSecond list of atoms (if empty, N*(N-1)/2 pairs in GROUPA are counted)
=r10 R_0The r_0 parameter of the switching function
=0.5 NN The n parameter of the switching function 
=8 MM The m parameter of the switching function; 0 implies 2*NN
=12  NLIST Use a neighbor list to speed up the calculation
 NL_CUTOFFThe cutoff for the neighbor list
=0.75 NL_STRIDEThe frequency with which we are updating the atoms in the neighbor list=10
The COORDINATION action with label c36 calculates the following quantities: Quantity    Description  
c36.value the value of the coordinationc36: COORDINATIONCalculate coordination numbers. This action uses the defaults shown here. More details
 GROUPAFirst list of atoms
=r4 GROUPBSecond list of atoms (if empty, N*(N-1)/2 pairs in GROUPA are counted)
=r10 R_0The r_0 parameter of the switching function
=0.5 NN The n parameter of the switching function 
=8 MM The m parameter of the switching function; 0 implies 2*NN
=12  NLIST Use a neighbor list to speed up the calculation
 NL_CUTOFFThe cutoff for the neighbor list
=0.75 NL_STRIDEThe frequency with which we are updating the atoms in the neighbor list
=10  D_0 The d_0 parameter of the switching function=0.0
c37: COORDINATIONCalculate coordination numbers. This action has hidden defaults. More details
 GROUPAFirst list of atoms
=r4 GROUPBSecond list of atoms (if empty, N*(N-1)/2 pairs in GROUPA are counted)
=r11 R_0The r_0 parameter of the switching function
=0.5 NN The n parameter of the switching function 
=8 MM The m parameter of the switching function; 0 implies 2*NN
=12  NLIST Use a neighbor list to speed up the calculation
 NL_CUTOFFThe cutoff for the neighbor list
=0.75 NL_STRIDEThe frequency with which we are updating the atoms in the neighbor list=10
The COORDINATION action with label c37 calculates the following quantities: Quantity    Description  
c37.value the value of the coordinationc37: COORDINATIONCalculate coordination numbers. This action uses the defaults shown here. More details
 GROUPAFirst list of atoms
=r4 GROUPBSecond list of atoms (if empty, N*(N-1)/2 pairs in GROUPA are counted)
=r11 R_0The r_0 parameter of the switching function
=0.5 NN The n parameter of the switching function 
=8 MM The m parameter of the switching function; 0 implies 2*NN
=12  NLIST Use a neighbor list to speed up the calculation
 NL_CUTOFFThe cutoff for the neighbor list
=0.75 NL_STRIDEThe frequency with which we are updating the atoms in the neighbor list
=10  D_0 The d_0 parameter of the switching function=0.0
c38: COORDINATIONCalculate coordination numbers. This action has hidden defaults. More details
 GROUPAFirst list of atoms
=r4 GROUPBSecond list of atoms (if empty, N*(N-1)/2 pairs in GROUPA are counted)
=r12 R_0The r_0 parameter of the switching function
=0.5 NN The n parameter of the switching function 
=8 MM The m parameter of the switching function; 0 implies 2*NN
=12  NLIST Use a neighbor list to speed up the calculation
 NL_CUTOFFThe cutoff for the neighbor list
=0.75 NL_STRIDEThe frequency with which we are updating the atoms in the neighbor list=10
The COORDINATION action with label c38 calculates the following quantities: Quantity    Description  
c38.value the value of the coordinationc38: COORDINATIONCalculate coordination numbers. This action uses the defaults shown here. More details
 GROUPAFirst list of atoms
=r4 GROUPBSecond list of atoms (if empty, N*(N-1)/2 pairs in GROUPA are counted)
=r12 R_0The r_0 parameter of the switching function
=0.5 NN The n parameter of the switching function 
=8 MM The m parameter of the switching function; 0 implies 2*NN
=12  NLIST Use a neighbor list to speed up the calculation
 NL_CUTOFFThe cutoff for the neighbor list
=0.75 NL_STRIDEThe frequency with which we are updating the atoms in the neighbor list
=10  D_0 The d_0 parameter of the switching function=0.0
c39: COORDINATIONCalculate coordination numbers. This action has hidden defaults. More details
 GROUPAFirst list of atoms
=r5 GROUPBSecond list of atoms (if empty, N*(N-1)/2 pairs in GROUPA are counted)
=r6 R_0The r_0 parameter of the switching function
=0.5 NN The n parameter of the switching function 
=8 MM The m parameter of the switching function; 0 implies 2*NN
=12  NLIST Use a neighbor list to speed up the calculation
 NL_CUTOFFThe cutoff for the neighbor list
=0.75 NL_STRIDEThe frequency with which we are updating the atoms in the neighbor list=10
The COORDINATION action with label c39 calculates the following quantities: Quantity    Description  
c39.value the value of the coordinationc39: COORDINATIONCalculate coordination numbers. This action uses the defaults shown here. More details
 GROUPAFirst list of atoms
=r5 GROUPBSecond list of atoms (if empty, N*(N-1)/2 pairs in GROUPA are counted)
=r6 R_0The r_0 parameter of the switching function
=0.5 NN The n parameter of the switching function 
=8 MM The m parameter of the switching function; 0 implies 2*NN
=12  NLIST Use a neighbor list to speed up the calculation
 NL_CUTOFFThe cutoff for the neighbor list
=0.75 NL_STRIDEThe frequency with which we are updating the atoms in the neighbor list
=10  D_0 The d_0 parameter of the switching function=0.0
c40: COORDINATIONCalculate coordination numbers. This action has hidden defaults. More details
 GROUPAFirst list of atoms
=r5 GROUPBSecond list of atoms (if empty, N*(N-1)/2 pairs in GROUPA are counted)
=r7 R_0The r_0 parameter of the switching function
=0.5 NN The n parameter of the switching function 
=8 MM The m parameter of the switching function; 0 implies 2*NN
=12  NLIST Use a neighbor list to speed up the calculation
 NL_CUTOFFThe cutoff for the neighbor list
=0.75 NL_STRIDEThe frequency with which we are updating the atoms in the neighbor list=10
The COORDINATION action with label c40 calculates the following quantities: Quantity    Description  
c40.value the value of the coordinationc40: COORDINATIONCalculate coordination numbers. This action uses the defaults shown here. More details
 GROUPAFirst list of atoms
=r5 GROUPBSecond list of atoms (if empty, N*(N-1)/2 pairs in GROUPA are counted)
=r7 R_0The r_0 parameter of the switching function
=0.5 NN The n parameter of the switching function 
=8 MM The m parameter of the switching function; 0 implies 2*NN
=12  NLIST Use a neighbor list to speed up the calculation
 NL_CUTOFFThe cutoff for the neighbor list
=0.75 NL_STRIDEThe frequency with which we are updating the atoms in the neighbor list
=10  D_0 The d_0 parameter of the switching function=0.0
c41: COORDINATIONCalculate coordination numbers. This action has hidden defaults. More details
 GROUPAFirst list of atoms
=r5 GROUPBSecond list of atoms (if empty, N*(N-1)/2 pairs in GROUPA are counted)
=r8 R_0The r_0 parameter of the switching function
=0.5 NN The n parameter of the switching function 
=8 MM The m parameter of the switching function; 0 implies 2*NN
=12  NLIST Use a neighbor list to speed up the calculation
 NL_CUTOFFThe cutoff for the neighbor list
=0.75 NL_STRIDEThe frequency with which we are updating the atoms in the neighbor list=10
The COORDINATION action with label c41 calculates the following quantities: Quantity    Description  
c41.value the value of the coordinationc41: COORDINATIONCalculate coordination numbers. This action uses the defaults shown here. More details
 GROUPAFirst list of atoms
=r5 GROUPBSecond list of atoms (if empty, N*(N-1)/2 pairs in GROUPA are counted)
=r8 R_0The r_0 parameter of the switching function
=0.5 NN The n parameter of the switching function 
=8 MM The m parameter of the switching function; 0 implies 2*NN
=12  NLIST Use a neighbor list to speed up the calculation
 NL_CUTOFFThe cutoff for the neighbor list
=0.75 NL_STRIDEThe frequency with which we are updating the atoms in the neighbor list
=10  D_0 The d_0 parameter of the switching function=0.0
c42: COORDINATIONCalculate coordination numbers. This action has hidden defaults. More details
 GROUPAFirst list of atoms
=r5 GROUPBSecond list of atoms (if empty, N*(N-1)/2 pairs in GROUPA are counted)
=r9 R_0The r_0 parameter of the switching function
=0.5 NN The n parameter of the switching function 
=8 MM The m parameter of the switching function; 0 implies 2*NN
=12  NLIST Use a neighbor list to speed up the calculation
 NL_CUTOFFThe cutoff for the neighbor list
=0.75 NL_STRIDEThe frequency with which we are updating the atoms in the neighbor list=10
The COORDINATION action with label c42 calculates the following quantities: Quantity    Description  
c42.value the value of the coordinationc42: COORDINATIONCalculate coordination numbers. This action uses the defaults shown here. More details
 GROUPAFirst list of atoms
=r5 GROUPBSecond list of atoms (if empty, N*(N-1)/2 pairs in GROUPA are counted)
=r9 R_0The r_0 parameter of the switching function
=0.5 NN The n parameter of the switching function 
=8 MM The m parameter of the switching function; 0 implies 2*NN
=12  NLIST Use a neighbor list to speed up the calculation
 NL_CUTOFFThe cutoff for the neighbor list
=0.75 NL_STRIDEThe frequency with which we are updating the atoms in the neighbor list
=10  D_0 The d_0 parameter of the switching function=0.0
c43: COORDINATIONCalculate coordination numbers. This action has hidden defaults. More details
 GROUPAFirst list of atoms
=r5 GROUPBSecond list of atoms (if empty, N*(N-1)/2 pairs in GROUPA are counted)
=r10 R_0The r_0 parameter of the switching function
=0.5 NN The n parameter of the switching function 
=8 MM The m parameter of the switching function; 0 implies 2*NN
=12  NLIST Use a neighbor list to speed up the calculation
 NL_CUTOFFThe cutoff for the neighbor list
=0.75 NL_STRIDEThe frequency with which we are updating the atoms in the neighbor list=10
The COORDINATION action with label c43 calculates the following quantities: Quantity    Description  
c43.value the value of the coordinationc43: COORDINATIONCalculate coordination numbers. This action uses the defaults shown here. More details
 GROUPAFirst list of atoms
=r5 GROUPBSecond list of atoms (if empty, N*(N-1)/2 pairs in GROUPA are counted)
=r10 R_0The r_0 parameter of the switching function
=0.5 NN The n parameter of the switching function 
=8 MM The m parameter of the switching function; 0 implies 2*NN
=12  NLIST Use a neighbor list to speed up the calculation
 NL_CUTOFFThe cutoff for the neighbor list
=0.75 NL_STRIDEThe frequency with which we are updating the atoms in the neighbor list
=10  D_0 The d_0 parameter of the switching function=0.0
c44: COORDINATIONCalculate coordination numbers. This action has hidden defaults. More details
 GROUPAFirst list of atoms
=r5 GROUPBSecond list of atoms (if empty, N*(N-1)/2 pairs in GROUPA are counted)
=r11 R_0The r_0 parameter of the switching function
=0.5 NN The n parameter of the switching function 
=8 MM The m parameter of the switching function; 0 implies 2*NN
=12  NLIST Use a neighbor list to speed up the calculation
 NL_CUTOFFThe cutoff for the neighbor list
=0.75 NL_STRIDEThe frequency with which we are updating the atoms in the neighbor list=10
The COORDINATION action with label c44 calculates the following quantities: Quantity    Description  
c44.value the value of the coordinationc44: COORDINATIONCalculate coordination numbers. This action uses the defaults shown here. More details
 GROUPAFirst list of atoms
=r5 GROUPBSecond list of atoms (if empty, N*(N-1)/2 pairs in GROUPA are counted)
=r11 R_0The r_0 parameter of the switching function
=0.5 NN The n parameter of the switching function 
=8 MM The m parameter of the switching function; 0 implies 2*NN
=12  NLIST Use a neighbor list to speed up the calculation
 NL_CUTOFFThe cutoff for the neighbor list
=0.75 NL_STRIDEThe frequency with which we are updating the atoms in the neighbor list
=10  D_0 The d_0 parameter of the switching function=0.0
c45: COORDINATIONCalculate coordination numbers. This action has hidden defaults. More details
 GROUPAFirst list of atoms
=r5 GROUPBSecond list of atoms (if empty, N*(N-1)/2 pairs in GROUPA are counted)
=r12 R_0The r_0 parameter of the switching function
=0.5 NN The n parameter of the switching function 
=8 MM The m parameter of the switching function; 0 implies 2*NN
=12  NLIST Use a neighbor list to speed up the calculation
 NL_CUTOFFThe cutoff for the neighbor list
=0.75 NL_STRIDEThe frequency with which we are updating the atoms in the neighbor list=10
The COORDINATION action with label c45 calculates the following quantities: Quantity    Description  
c45.value the value of the coordinationc45: COORDINATIONCalculate coordination numbers. This action uses the defaults shown here. More details
 GROUPAFirst list of atoms
=r5 GROUPBSecond list of atoms (if empty, N*(N-1)/2 pairs in GROUPA are counted)
=r12 R_0The r_0 parameter of the switching function
=0.5 NN The n parameter of the switching function 
=8 MM The m parameter of the switching function; 0 implies 2*NN
=12  NLIST Use a neighbor list to speed up the calculation
 NL_CUTOFFThe cutoff for the neighbor list
=0.75 NL_STRIDEThe frequency with which we are updating the atoms in the neighbor list
=10  D_0 The d_0 parameter of the switching function=0.0
c46: COORDINATIONCalculate coordination numbers. This action has hidden defaults. More details
 GROUPAFirst list of atoms
=r6 GROUPBSecond list of atoms (if empty, N*(N-1)/2 pairs in GROUPA are counted)
=r7 R_0The r_0 parameter of the switching function
=0.5 NN The n parameter of the switching function 
=8 MM The m parameter of the switching function; 0 implies 2*NN
=12  NLIST Use a neighbor list to speed up the calculation
 NL_CUTOFFThe cutoff for the neighbor list
=0.75 NL_STRIDEThe frequency with which we are updating the atoms in the neighbor list=10
The COORDINATION action with label c46 calculates the following quantities: Quantity    Description  
c46.value the value of the coordinationc46: COORDINATIONCalculate coordination numbers. This action uses the defaults shown here. More details
 GROUPAFirst list of atoms
=r6 GROUPBSecond list of atoms (if empty, N*(N-1)/2 pairs in GROUPA are counted)
=r7 R_0The r_0 parameter of the switching function
=0.5 NN The n parameter of the switching function 
=8 MM The m parameter of the switching function; 0 implies 2*NN
=12  NLIST Use a neighbor list to speed up the calculation
 NL_CUTOFFThe cutoff for the neighbor list
=0.75 NL_STRIDEThe frequency with which we are updating the atoms in the neighbor list
=10  D_0 The d_0 parameter of the switching function=0.0
c47: COORDINATIONCalculate coordination numbers. This action has hidden defaults. More details
 GROUPAFirst list of atoms
=r6 GROUPBSecond list of atoms (if empty, N*(N-1)/2 pairs in GROUPA are counted)
=r8 R_0The r_0 parameter of the switching function
=0.5 NN The n parameter of the switching function 
=8 MM The m parameter of the switching function; 0 implies 2*NN
=12  NLIST Use a neighbor list to speed up the calculation
 NL_CUTOFFThe cutoff for the neighbor list
=0.75 NL_STRIDEThe frequency with which we are updating the atoms in the neighbor list=10
The COORDINATION action with label c47 calculates the following quantities: Quantity    Description  
c47.value the value of the coordinationc47: COORDINATIONCalculate coordination numbers. This action uses the defaults shown here. More details
 GROUPAFirst list of atoms
=r6 GROUPBSecond list of atoms (if empty, N*(N-1)/2 pairs in GROUPA are counted)
=r8 R_0The r_0 parameter of the switching function
=0.5 NN The n parameter of the switching function 
=8 MM The m parameter of the switching function; 0 implies 2*NN
=12  NLIST Use a neighbor list to speed up the calculation
 NL_CUTOFFThe cutoff for the neighbor list
=0.75 NL_STRIDEThe frequency with which we are updating the atoms in the neighbor list
=10  D_0 The d_0 parameter of the switching function=0.0
c48: COORDINATIONCalculate coordination numbers. This action has hidden defaults. More details
 GROUPAFirst list of atoms
=r6 GROUPBSecond list of atoms (if empty, N*(N-1)/2 pairs in GROUPA are counted)
=r9 R_0The r_0 parameter of the switching function
=0.5 NN The n parameter of the switching function 
=8 MM The m parameter of the switching function; 0 implies 2*NN
=12  NLIST Use a neighbor list to speed up the calculation
 NL_CUTOFFThe cutoff for the neighbor list
=0.75 NL_STRIDEThe frequency with which we are updating the atoms in the neighbor list=10
The COORDINATION action with label c48 calculates the following quantities: Quantity    Description  
c48.value the value of the coordinationc48: COORDINATIONCalculate coordination numbers. This action uses the defaults shown here. More details
 GROUPAFirst list of atoms
=r6 GROUPBSecond list of atoms (if empty, N*(N-1)/2 pairs in GROUPA are counted)
=r9 R_0The r_0 parameter of the switching function
=0.5 NN The n parameter of the switching function 
=8 MM The m parameter of the switching function; 0 implies 2*NN
=12  NLIST Use a neighbor list to speed up the calculation
 NL_CUTOFFThe cutoff for the neighbor list
=0.75 NL_STRIDEThe frequency with which we are updating the atoms in the neighbor list
=10  D_0 The d_0 parameter of the switching function=0.0
c49: COORDINATIONCalculate coordination numbers. This action has hidden defaults. More details
 GROUPAFirst list of atoms
=r6 GROUPBSecond list of atoms (if empty, N*(N-1)/2 pairs in GROUPA are counted)
=r10 R_0The r_0 parameter of the switching function
=0.5 NN The n parameter of the switching function 
=8 MM The m parameter of the switching function; 0 implies 2*NN
=12  NLIST Use a neighbor list to speed up the calculation
 NL_CUTOFFThe cutoff for the neighbor list
=0.75 NL_STRIDEThe frequency with which we are updating the atoms in the neighbor list=10
The COORDINATION action with label c49 calculates the following quantities: Quantity    Description  
c49.value the value of the coordinationc49: COORDINATIONCalculate coordination numbers. This action uses the defaults shown here. More details
 GROUPAFirst list of atoms
=r6 GROUPBSecond list of atoms (if empty, N*(N-1)/2 pairs in GROUPA are counted)
=r10 R_0The r_0 parameter of the switching function
=0.5 NN The n parameter of the switching function 
=8 MM The m parameter of the switching function; 0 implies 2*NN
=12  NLIST Use a neighbor list to speed up the calculation
 NL_CUTOFFThe cutoff for the neighbor list
=0.75 NL_STRIDEThe frequency with which we are updating the atoms in the neighbor list
=10  D_0 The d_0 parameter of the switching function=0.0
c50: COORDINATIONCalculate coordination numbers. This action has hidden defaults. More details
 GROUPAFirst list of atoms
=r6 GROUPBSecond list of atoms (if empty, N*(N-1)/2 pairs in GROUPA are counted)
=r11 R_0The r_0 parameter of the switching function
=0.5 NN The n parameter of the switching function 
=8 MM The m parameter of the switching function; 0 implies 2*NN
=12  NLIST Use a neighbor list to speed up the calculation
 NL_CUTOFFThe cutoff for the neighbor list
=0.75 NL_STRIDEThe frequency with which we are updating the atoms in the neighbor list=10
The COORDINATION action with label c50 calculates the following quantities: Quantity    Description  
c50.value the value of the coordinationc50: COORDINATIONCalculate coordination numbers. This action uses the defaults shown here. More details
 GROUPAFirst list of atoms
=r6 GROUPBSecond list of atoms (if empty, N*(N-1)/2 pairs in GROUPA are counted)
=r11 R_0The r_0 parameter of the switching function
=0.5 NN The n parameter of the switching function 
=8 MM The m parameter of the switching function; 0 implies 2*NN
=12  NLIST Use a neighbor list to speed up the calculation
 NL_CUTOFFThe cutoff for the neighbor list
=0.75 NL_STRIDEThe frequency with which we are updating the atoms in the neighbor list
=10  D_0 The d_0 parameter of the switching function=0.0
c51: COORDINATIONCalculate coordination numbers. This action has hidden defaults. More details
 GROUPAFirst list of atoms
=r6 GROUPBSecond list of atoms (if empty, N*(N-1)/2 pairs in GROUPA are counted)
=r12 R_0The r_0 parameter of the switching function
=0.5 NN The n parameter of the switching function 
=8 MM The m parameter of the switching function; 0 implies 2*NN
=12  NLIST Use a neighbor list to speed up the calculation
 NL_CUTOFFThe cutoff for the neighbor list
=0.75 NL_STRIDEThe frequency with which we are updating the atoms in the neighbor list=10
The COORDINATION action with label c51 calculates the following quantities: Quantity    Description  
c51.value the value of the coordinationc51: COORDINATIONCalculate coordination numbers. This action uses the defaults shown here. More details
 GROUPAFirst list of atoms
=r6 GROUPBSecond list of atoms (if empty, N*(N-1)/2 pairs in GROUPA are counted)
=r12 R_0The r_0 parameter of the switching function
=0.5 NN The n parameter of the switching function 
=8 MM The m parameter of the switching function; 0 implies 2*NN
=12  NLIST Use a neighbor list to speed up the calculation
 NL_CUTOFFThe cutoff for the neighbor list
=0.75 NL_STRIDEThe frequency with which we are updating the atoms in the neighbor list
=10  D_0 The d_0 parameter of the switching function=0.0
c52: COORDINATIONCalculate coordination numbers. This action has hidden defaults. More details
 GROUPAFirst list of atoms
=r7 GROUPBSecond list of atoms (if empty, N*(N-1)/2 pairs in GROUPA are counted)
=r8 R_0The r_0 parameter of the switching function
=0.5 NN The n parameter of the switching function 
=8 MM The m parameter of the switching function; 0 implies 2*NN
=12  NLIST Use a neighbor list to speed up the calculation
 NL_CUTOFFThe cutoff for the neighbor list
=0.75 NL_STRIDEThe frequency with which we are updating the atoms in the neighbor list=10
The COORDINATION action with label c52 calculates the following quantities: Quantity    Description  
c52.value the value of the coordinationc52: COORDINATIONCalculate coordination numbers. This action uses the defaults shown here. More details
 GROUPAFirst list of atoms
=r7 GROUPBSecond list of atoms (if empty, N*(N-1)/2 pairs in GROUPA are counted)
=r8 R_0The r_0 parameter of the switching function
=0.5 NN The n parameter of the switching function 
=8 MM The m parameter of the switching function; 0 implies 2*NN
=12  NLIST Use a neighbor list to speed up the calculation
 NL_CUTOFFThe cutoff for the neighbor list
=0.75 NL_STRIDEThe frequency with which we are updating the atoms in the neighbor list
=10  D_0 The d_0 parameter of the switching function=0.0
c53: COORDINATIONCalculate coordination numbers. This action has hidden defaults. More details
 GROUPAFirst list of atoms
=r7 GROUPBSecond list of atoms (if empty, N*(N-1)/2 pairs in GROUPA are counted)
=r9 R_0The r_0 parameter of the switching function
=0.5 NN The n parameter of the switching function 
=8 MM The m parameter of the switching function; 0 implies 2*NN
=12  NLIST Use a neighbor list to speed up the calculation
 NL_CUTOFFThe cutoff for the neighbor list
=0.75 NL_STRIDEThe frequency with which we are updating the atoms in the neighbor list=10
The COORDINATION action with label c53 calculates the following quantities: Quantity    Description  
c53.value the value of the coordinationc53: COORDINATIONCalculate coordination numbers. This action uses the defaults shown here. More details
 GROUPAFirst list of atoms
=r7 GROUPBSecond list of atoms (if empty, N*(N-1)/2 pairs in GROUPA are counted)
=r9 R_0The r_0 parameter of the switching function
=0.5 NN The n parameter of the switching function 
=8 MM The m parameter of the switching function; 0 implies 2*NN
=12  NLIST Use a neighbor list to speed up the calculation
 NL_CUTOFFThe cutoff for the neighbor list
=0.75 NL_STRIDEThe frequency with which we are updating the atoms in the neighbor list
=10  D_0 The d_0 parameter of the switching function=0.0
c54: COORDINATIONCalculate coordination numbers. This action has hidden defaults. More details
 GROUPAFirst list of atoms
=r7 GROUPBSecond list of atoms (if empty, N*(N-1)/2 pairs in GROUPA are counted)
=r10 R_0The r_0 parameter of the switching function
=0.5 NN The n parameter of the switching function 
=8 MM The m parameter of the switching function; 0 implies 2*NN
=12  NLIST Use a neighbor list to speed up the calculation
 NL_CUTOFFThe cutoff for the neighbor list
=0.75 NL_STRIDEThe frequency with which we are updating the atoms in the neighbor list=10
The COORDINATION action with label c54 calculates the following quantities: Quantity    Description  
c54.value the value of the coordinationc54: COORDINATIONCalculate coordination numbers. This action uses the defaults shown here. More details
 GROUPAFirst list of atoms
=r7 GROUPBSecond list of atoms (if empty, N*(N-1)/2 pairs in GROUPA are counted)
=r10 R_0The r_0 parameter of the switching function
=0.5 NN The n parameter of the switching function 
=8 MM The m parameter of the switching function; 0 implies 2*NN
=12  NLIST Use a neighbor list to speed up the calculation
 NL_CUTOFFThe cutoff for the neighbor list
=0.75 NL_STRIDEThe frequency with which we are updating the atoms in the neighbor list
=10  D_0 The d_0 parameter of the switching function=0.0
c55: COORDINATIONCalculate coordination numbers. This action has hidden defaults. More details
 GROUPAFirst list of atoms
=r7 GROUPBSecond list of atoms (if empty, N*(N-1)/2 pairs in GROUPA are counted)
=r11 R_0The r_0 parameter of the switching function
=0.5 NN The n parameter of the switching function 
=8 MM The m parameter of the switching function; 0 implies 2*NN
=12  NLIST Use a neighbor list to speed up the calculation
 NL_CUTOFFThe cutoff for the neighbor list
=0.75 NL_STRIDEThe frequency with which we are updating the atoms in the neighbor list=10
The COORDINATION action with label c55 calculates the following quantities: Quantity    Description  
c55.value the value of the coordinationc55: COORDINATIONCalculate coordination numbers. This action uses the defaults shown here. More details
 GROUPAFirst list of atoms
=r7 GROUPBSecond list of atoms (if empty, N*(N-1)/2 pairs in GROUPA are counted)
=r11 R_0The r_0 parameter of the switching function
=0.5 NN The n parameter of the switching function 
=8 MM The m parameter of the switching function; 0 implies 2*NN
=12  NLIST Use a neighbor list to speed up the calculation
 NL_CUTOFFThe cutoff for the neighbor list
=0.75 NL_STRIDEThe frequency with which we are updating the atoms in the neighbor list
=10  D_0 The d_0 parameter of the switching function=0.0
c56: COORDINATIONCalculate coordination numbers. This action has hidden defaults. More details
 GROUPAFirst list of atoms
=r7 GROUPBSecond list of atoms (if empty, N*(N-1)/2 pairs in GROUPA are counted)
=r12 R_0The r_0 parameter of the switching function
=0.5 NN The n parameter of the switching function 
=8 MM The m parameter of the switching function; 0 implies 2*NN
=12  NLIST Use a neighbor list to speed up the calculation
 NL_CUTOFFThe cutoff for the neighbor list
=0.75 NL_STRIDEThe frequency with which we are updating the atoms in the neighbor list=10
The COORDINATION action with label c56 calculates the following quantities: Quantity    Description  
c56.value the value of the coordinationc56: COORDINATIONCalculate coordination numbers. This action uses the defaults shown here. More details
 GROUPAFirst list of atoms
=r7 GROUPBSecond list of atoms (if empty, N*(N-1)/2 pairs in GROUPA are counted)
=r12 R_0The r_0 parameter of the switching function
=0.5 NN The n parameter of the switching function 
=8 MM The m parameter of the switching function; 0 implies 2*NN
=12  NLIST Use a neighbor list to speed up the calculation
 NL_CUTOFFThe cutoff for the neighbor list
=0.75 NL_STRIDEThe frequency with which we are updating the atoms in the neighbor list
=10  D_0 The d_0 parameter of the switching function=0.0
c57: COORDINATIONCalculate coordination numbers. This action has hidden defaults. More details
 GROUPAFirst list of atoms
=r8 GROUPBSecond list of atoms (if empty, N*(N-1)/2 pairs in GROUPA are counted)
=r9 R_0The r_0 parameter of the switching function
=0.5 NN The n parameter of the switching function 
=8 MM The m parameter of the switching function; 0 implies 2*NN
=12  NLIST Use a neighbor list to speed up the calculation
 NL_CUTOFFThe cutoff for the neighbor list
=0.75 NL_STRIDEThe frequency with which we are updating the atoms in the neighbor list=10
The COORDINATION action with label c57 calculates the following quantities: Quantity    Description  
c57.value the value of the coordinationc57: COORDINATIONCalculate coordination numbers. This action uses the defaults shown here. More details
 GROUPAFirst list of atoms
=r8 GROUPBSecond list of atoms (if empty, N*(N-1)/2 pairs in GROUPA are counted)
=r9 R_0The r_0 parameter of the switching function
=0.5 NN The n parameter of the switching function 
=8 MM The m parameter of the switching function; 0 implies 2*NN
=12  NLIST Use a neighbor list to speed up the calculation
 NL_CUTOFFThe cutoff for the neighbor list
=0.75 NL_STRIDEThe frequency with which we are updating the atoms in the neighbor list
=10  D_0 The d_0 parameter of the switching function=0.0
c58: COORDINATIONCalculate coordination numbers. This action has hidden defaults. More details
 GROUPAFirst list of atoms
=r8 GROUPBSecond list of atoms (if empty, N*(N-1)/2 pairs in GROUPA are counted)
=r10 R_0The r_0 parameter of the switching function
=0.5 NN The n parameter of the switching function 
=8 MM The m parameter of the switching function; 0 implies 2*NN
=12  NLIST Use a neighbor list to speed up the calculation
 NL_CUTOFFThe cutoff for the neighbor list
=0.75 NL_STRIDEThe frequency with which we are updating the atoms in the neighbor list=10
The COORDINATION action with label c58 calculates the following quantities: Quantity    Description  
c58.value the value of the coordinationc58: COORDINATIONCalculate coordination numbers. This action uses the defaults shown here. More details
 GROUPAFirst list of atoms
=r8 GROUPBSecond list of atoms (if empty, N*(N-1)/2 pairs in GROUPA are counted)
=r10 R_0The r_0 parameter of the switching function
=0.5 NN The n parameter of the switching function 
=8 MM The m parameter of the switching function; 0 implies 2*NN
=12  NLIST Use a neighbor list to speed up the calculation
 NL_CUTOFFThe cutoff for the neighbor list
=0.75 NL_STRIDEThe frequency with which we are updating the atoms in the neighbor list
=10  D_0 The d_0 parameter of the switching function=0.0
c59: COORDINATIONCalculate coordination numbers. This action has hidden defaults. More details
 GROUPAFirst list of atoms
=r8 GROUPBSecond list of atoms (if empty, N*(N-1)/2 pairs in GROUPA are counted)
=r11 R_0The r_0 parameter of the switching function
=0.5 NN The n parameter of the switching function 
=8 MM The m parameter of the switching function; 0 implies 2*NN
=12  NLIST Use a neighbor list to speed up the calculation
 NL_CUTOFFThe cutoff for the neighbor list
=0.75 NL_STRIDEThe frequency with which we are updating the atoms in the neighbor list=10
The COORDINATION action with label c59 calculates the following quantities: Quantity    Description  
c59.value the value of the coordinationc59: COORDINATIONCalculate coordination numbers. This action uses the defaults shown here. More details
 GROUPAFirst list of atoms
=r8 GROUPBSecond list of atoms (if empty, N*(N-1)/2 pairs in GROUPA are counted)
=r11 R_0The r_0 parameter of the switching function
=0.5 NN The n parameter of the switching function 
=8 MM The m parameter of the switching function; 0 implies 2*NN
=12  NLIST Use a neighbor list to speed up the calculation
 NL_CUTOFFThe cutoff for the neighbor list
=0.75 NL_STRIDEThe frequency with which we are updating the atoms in the neighbor list
=10  D_0 The d_0 parameter of the switching function=0.0
c60: COORDINATIONCalculate coordination numbers. This action has hidden defaults. More details
 GROUPAFirst list of atoms
=r8 GROUPBSecond list of atoms (if empty, N*(N-1)/2 pairs in GROUPA are counted)
=r12 R_0The r_0 parameter of the switching function
=0.5 NN The n parameter of the switching function 
=8 MM The m parameter of the switching function; 0 implies 2*NN
=12  NLIST Use a neighbor list to speed up the calculation
 NL_CUTOFFThe cutoff for the neighbor list
=0.75 NL_STRIDEThe frequency with which we are updating the atoms in the neighbor list=10
The COORDINATION action with label c60 calculates the following quantities: Quantity    Description  
c60.value the value of the coordinationc60: COORDINATIONCalculate coordination numbers. This action uses the defaults shown here. More details
 GROUPAFirst list of atoms
=r8 GROUPBSecond list of atoms (if empty, N*(N-1)/2 pairs in GROUPA are counted)
=r12 R_0The r_0 parameter of the switching function
=0.5 NN The n parameter of the switching function 
=8 MM The m parameter of the switching function; 0 implies 2*NN
=12  NLIST Use a neighbor list to speed up the calculation
 NL_CUTOFFThe cutoff for the neighbor list
=0.75 NL_STRIDEThe frequency with which we are updating the atoms in the neighbor list
=10  D_0 The d_0 parameter of the switching function=0.0
c61: COORDINATIONCalculate coordination numbers. This action has hidden defaults. More details
 GROUPAFirst list of atoms
=r9 GROUPBSecond list of atoms (if empty, N*(N-1)/2 pairs in GROUPA are counted)
=r10 R_0The r_0 parameter of the switching function
=0.5 NN The n parameter of the switching function 
=8 MM The m parameter of the switching function; 0 implies 2*NN
=12  NLIST Use a neighbor list to speed up the calculation
 NL_CUTOFFThe cutoff for the neighbor list
=0.75 NL_STRIDEThe frequency with which we are updating the atoms in the neighbor list=10
The COORDINATION action with label c61 calculates the following quantities: Quantity    Description  
c61.value the value of the coordinationc61: COORDINATIONCalculate coordination numbers. This action uses the defaults shown here. More details
 GROUPAFirst list of atoms
=r9 GROUPBSecond list of atoms (if empty, N*(N-1)/2 pairs in GROUPA are counted)
=r10 R_0The r_0 parameter of the switching function
=0.5 NN The n parameter of the switching function 
=8 MM The m parameter of the switching function; 0 implies 2*NN
=12  NLIST Use a neighbor list to speed up the calculation
 NL_CUTOFFThe cutoff for the neighbor list
=0.75 NL_STRIDEThe frequency with which we are updating the atoms in the neighbor list
=10  D_0 The d_0 parameter of the switching function=0.0
c62: COORDINATIONCalculate coordination numbers. This action has hidden defaults. More details
 GROUPAFirst list of atoms
=r9 GROUPBSecond list of atoms (if empty, N*(N-1)/2 pairs in GROUPA are counted)
=r11 R_0The r_0 parameter of the switching function
=0.5 NN The n parameter of the switching function 
=8 MM The m parameter of the switching function; 0 implies 2*NN
=12  NLIST Use a neighbor list to speed up the calculation
 NL_CUTOFFThe cutoff for the neighbor list
=0.75 NL_STRIDEThe frequency with which we are updating the atoms in the neighbor list=10
The COORDINATION action with label c62 calculates the following quantities: Quantity    Description  
c62.value the value of the coordinationc62: COORDINATIONCalculate coordination numbers. This action uses the defaults shown here. More details
 GROUPAFirst list of atoms
=r9 GROUPBSecond list of atoms (if empty, N*(N-1)/2 pairs in GROUPA are counted)
=r11 R_0The r_0 parameter of the switching function
=0.5 NN The n parameter of the switching function 
=8 MM The m parameter of the switching function; 0 implies 2*NN
=12  NLIST Use a neighbor list to speed up the calculation
 NL_CUTOFFThe cutoff for the neighbor list
=0.75 NL_STRIDEThe frequency with which we are updating the atoms in the neighbor list
=10  D_0 The d_0 parameter of the switching function=0.0
c63: COORDINATIONCalculate coordination numbers. This action has hidden defaults. More details
 GROUPAFirst list of atoms
=r9 GROUPBSecond list of atoms (if empty, N*(N-1)/2 pairs in GROUPA are counted)
=r12 R_0The r_0 parameter of the switching function
=0.5 NN The n parameter of the switching function 
=8 MM The m parameter of the switching function; 0 implies 2*NN
=12  NLIST Use a neighbor list to speed up the calculation
 NL_CUTOFFThe cutoff for the neighbor list
=0.75 NL_STRIDEThe frequency with which we are updating the atoms in the neighbor list=10
The COORDINATION action with label c63 calculates the following quantities: Quantity    Description  
c63.value the value of the coordinationc63: COORDINATIONCalculate coordination numbers. This action uses the defaults shown here. More details
 GROUPAFirst list of atoms
=r9 GROUPBSecond list of atoms (if empty, N*(N-1)/2 pairs in GROUPA are counted)
=r12 R_0The r_0 parameter of the switching function
=0.5 NN The n parameter of the switching function 
=8 MM The m parameter of the switching function; 0 implies 2*NN
=12  NLIST Use a neighbor list to speed up the calculation
 NL_CUTOFFThe cutoff for the neighbor list
=0.75 NL_STRIDEThe frequency with which we are updating the atoms in the neighbor list
=10  D_0 The d_0 parameter of the switching function=0.0
c64: COORDINATIONCalculate coordination numbers. This action has hidden defaults. More details
 GROUPAFirst list of atoms
=r10 GROUPBSecond list of atoms (if empty, N*(N-1)/2 pairs in GROUPA are counted)
=r11 R_0The r_0 parameter of the switching function
=0.5 NN The n parameter of the switching function 
=8 MM The m parameter of the switching function; 0 implies 2*NN
=12  NLIST Use a neighbor list to speed up the calculation
 NL_CUTOFFThe cutoff for the neighbor list
=0.75 NL_STRIDEThe frequency with which we are updating the atoms in the neighbor list=10
The COORDINATION action with label c64 calculates the following quantities: Quantity    Description  
c64.value the value of the coordinationc64: COORDINATIONCalculate coordination numbers. This action uses the defaults shown here. More details
 GROUPAFirst list of atoms
=r10 GROUPBSecond list of atoms (if empty, N*(N-1)/2 pairs in GROUPA are counted)
=r11 R_0The r_0 parameter of the switching function
=0.5 NN The n parameter of the switching function 
=8 MM The m parameter of the switching function; 0 implies 2*NN
=12  NLIST Use a neighbor list to speed up the calculation
 NL_CUTOFFThe cutoff for the neighbor list
=0.75 NL_STRIDEThe frequency with which we are updating the atoms in the neighbor list
=10  D_0 The d_0 parameter of the switching function=0.0
c65: COORDINATIONCalculate coordination numbers. This action has hidden defaults. More details
 GROUPAFirst list of atoms
=r10 GROUPBSecond list of atoms (if empty, N*(N-1)/2 pairs in GROUPA are counted)
=r12 R_0The r_0 parameter of the switching function
=0.5 NN The n parameter of the switching function 
=8 MM The m parameter of the switching function; 0 implies 2*NN
=12  NLIST Use a neighbor list to speed up the calculation
 NL_CUTOFFThe cutoff for the neighbor list
=0.75 NL_STRIDEThe frequency with which we are updating the atoms in the neighbor list=10
The COORDINATION action with label c65 calculates the following quantities: Quantity    Description  
c65.value the value of the coordinationc65: COORDINATIONCalculate coordination numbers. This action uses the defaults shown here. More details
 GROUPAFirst list of atoms
=r10 GROUPBSecond list of atoms (if empty, N*(N-1)/2 pairs in GROUPA are counted)
=r12 R_0The r_0 parameter of the switching function
=0.5 NN The n parameter of the switching function 
=8 MM The m parameter of the switching function; 0 implies 2*NN
=12  NLIST Use a neighbor list to speed up the calculation
 NL_CUTOFFThe cutoff for the neighbor list
=0.75 NL_STRIDEThe frequency with which we are updating the atoms in the neighbor list
=10  D_0 The d_0 parameter of the switching function=0.0
c66: COORDINATIONCalculate coordination numbers. This action has hidden defaults. More details
 GROUPAFirst list of atoms
=r11 GROUPBSecond list of atoms (if empty, N*(N-1)/2 pairs in GROUPA are counted)
=r12 R_0The r_0 parameter of the switching function
=0.5 NN The n parameter of the switching function 
=8 MM The m parameter of the switching function; 0 implies 2*NN
=12  NLIST Use a neighbor list to speed up the calculation
 NL_CUTOFFThe cutoff for the neighbor list
=0.75 NL_STRIDEThe frequency with which we are updating the atoms in the neighbor list=10
The COORDINATION action with label c66 calculates the following quantities: Quantity    Description  
c66.value the value of the coordinationc66: COORDINATIONCalculate coordination numbers. This action uses the defaults shown here. More details
 GROUPAFirst list of atoms
=r11 GROUPBSecond list of atoms (if empty, N*(N-1)/2 pairs in GROUPA are counted)
=r12 R_0The r_0 parameter of the switching function
=0.5 NN The n parameter of the switching function 
=8 MM The m parameter of the switching function; 0 implies 2*NN
=12  NLIST Use a neighbor list to speed up the calculation
 NL_CUTOFFThe cutoff for the neighbor list
=0.75 NL_STRIDEThe frequency with which we are updating the atoms in the neighbor list
=10  D_0 The d_0 parameter of the switching function=0.0
Quantity	Description
c.value	the value of the coordination
Quantity	Description
c1.value	the value of the coordination
Quantity	Description
c2.value	the value of the coordination
Quantity	Description
c3.value	the value of the coordination
Quantity	Description
c4.value	the value of the coordination
Quantity	Description
c5.value	the value of the coordination
Quantity	Description
c6.value	the value of the coordination
Quantity	Description
c7.value	the value of the coordination
Quantity	Description
c8.value	the value of the coordination
Quantity	Description
c9.value	the value of the coordination
Quantity	Description
c10.value	the value of the coordination
Quantity	Description
c11.value	the value of the coordination
Quantity	Description
c12.value	the value of the coordination
Quantity	Description
c13.value	the value of the coordination
Quantity	Description
c14.value	the value of the coordination
Quantity	Description
c15.value	the value of the coordination
Quantity	Description
c16.value	the value of the coordination
Quantity	Description
c17.value	the value of the coordination
Quantity	Description
c18.value	the value of the coordination
Quantity	Description
c19.value	the value of the coordination
PLUMED-NEST-TEST-SITE

The public repository of the PLUMED consortium
