RTL Routines, MTH$, MTH$VxFOLRy z V8
*Conan The Librarian (sorry for the slow response - running on an old VAX)
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/sys$common/syshlp/helplib.hlb RTL Routines, MTH$, MTH$VxFOLRy z V8 *Conan The Librarian (sorry for the slow response - running on an old VAX) |
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The First Order Linear Recurrence - Multiplication or Addition
routine provides a vectorized algorithm for the linear recurrence
relation that includes either a multiplication or an addition
operation, but not both.
Format
MTH$VJFOLRP_M_V8 n,a,inca,b,incb
MTH$VFFOLRP_M_V8 n,a,inca,b,incb
MTH$VDFOLRP_M_V8 n,a,inca,b,incb
MTH$VGFOLRP_M_V8 n,a,inca,b,incb
MTH$VJFOLRN_M_V8 n,a,inca,b,incb
MTH$VFFOLRN_M_V8 n,a,inca,b,incb
MTH$VDFOLRN_M_V8 n,a,inca,b,incb
MTH$VGFOLRN_M_V8 n,a,inca,b,incb
MTH$VJFOLRP_A_V8 n,a,inca,b,incb
MTH$VFFOLRP_A_V8 n,a,inca,b,incb
MTH$VDFOLRP_A_V8 n,a,inca,b,incb
MTH$VGFOLRP_A_V8 n,a,inca,b,incb
MTH$VJFOLRN_A_V8 n,a,inca,b,incb
MTH$VFFOLRN_A_V8 n,a,inca,b,incb
MTH$VDFOLRN_A_V8 n,a,inca,b,incb
MTH$VGFOLRN_A_V8 n,a,inca,b,incb
To obtain one of the preceding formats, substitute the
following for x, y, and z in MTH$VxFOLRy_z_V8:
x = J for longword integer, F for F-floating, D for D-
floating, G for G-floating
y = P for a positive recursion element, N for a negative
recursion element
z = M for multiplication, A for addition
Additional Information (explode) :
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