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IcBench: Sample Benchmark App

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2018-02-05 13:35:15 +01:00
parent c63b0ed88a
commit 064d6d8a4d
1 changed files with 111 additions and 100 deletions
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211
icapp.c
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@ -47,12 +47,14 @@
#include "bitpack.h"
#include "vp4.h"
#include "vint.h"
#include "fp.h"
int mcpy;
int memcheck(unsigned char *in, unsigned n, unsigned char *cpy) {
int i;
for(i = 0; i < n; i++)
if(in[i] != cpy[i]) {
printf("ERROR in[%d]=%x, dec[%d]=%x\n", i, in[i], i, cpy[i]);
printf("ERROR at %d:in=%x,%x dec=%x,%x\n", i, in[i], in[i+1], cpy[i],cpy[i+1]);
return i+1;
}
return 0;
@ -65,123 +67,149 @@ void libmemcpy(unsigned char *dst, unsigned char *src, int len) {
memcpy_ptr(dst, src, len);
}
void pr(unsigned l, unsigned n) { printf("%10u %5.1f%%", l, (double)l*100.0/n); }
#define ID_MEMCPY 32
unsigned bench64(unsigned char *in, unsigned n, unsigned char *out, unsigned char *cpy, int id) {
unsigned benchf64(unsigned char *in, unsigned n, unsigned char *out, unsigned char *cpy, int id, char *inname) {
unsigned l,m=n/8;
memrcpy(cpy,in,n);
switch(id) {
case 1: TMBENCH("\np4nenc64 ",l=p4nenc64( in, m, out) ,n); printf("%10u %5.1f%%", l, (double)l*100.0/n); TMBENCH("",p4ndec64( out, m, cpy) ,n); break;
case 3: TMBENCH("\np4nzenc64 ",l=p4nzenc64( in, m, out) ,n); printf("%10u %5.1f%%", l, (double)l*100.0/n); TMBENCH("",p4nzdec64( out, m, cpy) ,n); break;
case 5: TMBENCH("\np4ndenc64 ",l=p4ndenc64( in, m, out) ,n); printf("%10u %5.1f%%", l, (double)l*100.0/n); TMBENCH("",p4nddec64( out, m, cpy) ,n); break;
case 7: TMBENCH("\np4nd1enc64 ",l=p4nd1enc64( in, m, out) ,n); printf("%10u %5.1f%%", l, (double)l*100.0/n); TMBENCH("",p4nd1dec64( out, m, cpy) ,n); break;
case 9: TMBENCH("\nvbzenc64 ",l=vbzenc64( in, m, out,0)-out,n); printf("%10u %5.1f%%", l, (double)l*100.0/n); TMBENCH("",vbzdec64( out, m, cpy,0) ,n); break;
case 10: TMBENCH("\nbitnpack64 ",l=bitnpack64( in, m, out) ,n); printf("%10u %5.1f%%", l, (double)l*100.0/n); TMBENCH("",bitnunpack64( out, m, cpy) ,n); break;
case 12: TMBENCH("\nbitnzpack64 ",l=bitnzpack64( in, m, out) ,n); printf("%10u %5.1f%%", l, (double)l*100.0/n); TMBENCH("",bitnzunpack64( out, m, cpy) ,n); break;
case 14: TMBENCH("\nbitndpack64 ",l=bitndpack64( in, m, out) ,n); printf("%10u %5.1f%%", l, (double)l*100.0/n); TMBENCH("",bitndunpack64( out, m, cpy) ,n); break;
case 16: TMBENCH("\nbitnd1pack64 ",l=bitnd1pack64( in, m, out) ,n); printf("%10u %5.1f%%", l, (double)l*100.0/n); TMBENCH("",bitnd1unpack64( out, m, cpy) ,n); break;
case ID_MEMCPY: TMBENCH("\nmemcpy ",libmemcpy( in,out,n) ,n); printf("%10u %5.1f%%", n, (double)100.0); return n;
case 1: TMBENCH("\nfppenc64 ",l=fppenc64( in, m, out,0)-out ,n); pr(l,n); TMBENCH("",fppdec64( out, m, cpy,0) ,n); break;
case 2: TMBENCH("\nfpddenc64 ",l=fpddenc64( in, m, out,0)-out ,n); pr(l,n); TMBENCH("",fpdddec64( out, m, cpy,0) ,n); break;
case 3: TMBENCH("\nfpfcmenc64 ",l=fpfcmenc64( in, m, out,0)-out ,n); pr(l,n); TMBENCH("",fpfcmdec64( out, m, cpy,0) ,n); break;
case 4: TMBENCH("\nfpdfcmenc64 ",l=fpdfcmenc64( in, m, out,0)-out ,n); pr(l,n); TMBENCH("",fpdfcmdec64( out, m, cpy,0) ,n); break;
case ID_MEMCPY: if(!mcpy) return l; TMBENCH("\nmemcpy ",libmemcpy( in,out,n) ,n); printf("%10u %5.1f%%", n, (double)100.0); return n;
default: return l;
}
printf(" %s ", inname);
memcheck(in,m*8,cpy);
return l;
}
unsigned bench64(unsigned char *in, unsigned n, unsigned char *out, unsigned char *cpy, int id, char *inname) {
unsigned l,m=n/8;
memrcpy(cpy,in,n);
switch(id) {
case 1: TMBENCH("\np4nenc64 ",l=p4nenc64( in, m, out) ,n); pr(l,n); TMBENCH("",p4ndec64( out, m, cpy) ,n); break;
case 2: TMBENCH("\np4nenc128v64 ",l=p4nenc128v64( in, m, out) ,n); pr(l,n); TMBENCH("",p4ndec128v64( out, m, cpy) ,n); break;
case 3: TMBENCH("\np4nzenc64 ",l=p4nzenc64( in, m, out) ,n); pr(l,n); TMBENCH("",p4nzdec64( out, m, cpy) ,n); break;
case 5: TMBENCH("\np4ndenc64 ",l=p4ndenc64( in, m, out) ,n); pr(l,n); TMBENCH("",p4nddec64( out, m, cpy) ,n); break;
case 7: TMBENCH("\np4nd1enc64 ",l=p4nd1enc64( in, m, out) ,n); pr(l,n); TMBENCH("",p4nd1dec64( out, m, cpy) ,n); break;
case 9: TMBENCH("\nvbzenc64 ",l=vbzenc64( in, m, out,0)-out,n); pr(l,n); TMBENCH("",vbzdec64( out, m, cpy,0) ,n); break;
case 10: TMBENCH("\nbitnpack64 ",l=bitnpack64( in, m, out) ,n); pr(l,n); TMBENCH("",bitnunpack64( out, m, cpy) ,n); break;
case 11: TMBENCH("\nbitnpack128v64 ",l=bitnpack128v64( in, m, out) ,n); pr(l,n); TMBENCH("",bitnunpack128v64( out, m, cpy) ,n); break;
case 12: TMBENCH("\nbitnzpack64 ",l=bitnzpack64( in, m, out) ,n); pr(l,n); TMBENCH("",bitnzunpack64( out, m, cpy) ,n); break;
case 14: TMBENCH("\nbitndpack64 ",l=bitndpack64( in, m, out) ,n); pr(l,n); TMBENCH("",bitndunpack64( out, m, cpy) ,n); break;
case 16: TMBENCH("\nbitnd1pack64 ",l=bitnd1pack64( in, m, out) ,n); pr(l,n); TMBENCH("",bitnd1unpack64( out, m, cpy) ,n); break;
case 18: TMBENCH("\np4nsenc64 ",l=p4nsenc64( in, m, out) ,n); pr(l,n); TMBENCH("",p4nsdec64( out, m, cpy) ,n); break;
case ID_MEMCPY: if(!mcpy) return l; TMBENCH("\nmemcpy ",libmemcpy( in,out,n) ,n); printf("%10u %5.1f%%", n, (double)100.0); return n;
default: return l;
}
printf(" %s ", inname);
memcheck(in,m*8,cpy);
return l;
}
unsigned bench32(unsigned char *in, unsigned n, unsigned char *out, unsigned char *cpy, int id) {
unsigned bench32(unsigned char *in, unsigned n, unsigned char *out, unsigned char *cpy, int id, char *inname) {
unsigned l,m=n/4;
memrcpy(cpy,in,n);
switch(id) {
case 1: TMBENCH("\np4nenc32 ",l=p4nenc32( in, m, out) ,n); printf("%10u %5.1f%%", l, (double)l*100.0/n); TMBENCH("",p4ndec32( out, m, cpy) ,n); break;
case 2: TMBENCH("\np4nenc128v32 ",l=p4nenc128v32( in, m, out) ,n); printf("%10u %5.1f%%", l, (double)l*100.0/n); TMBENCH("",p4ndec128v32( out, m, cpy) ,n); break;
case 1: TMBENCH("\np4nenc32 ",l=p4nenc32( in, m, out) ,n); pr(l,n); TMBENCH("",p4ndec32( out, m, cpy) ,n); break;
case 2: TMBENCH("\np4nenc128v32 ",l=p4nenc128v32( in, m, out) ,n); pr(l,n); TMBENCH("",p4ndec128v32( out, m, cpy) ,n); break;
case 3: TMBENCH("\np4nzenc32 ",l=p4nzenc32( in, m, out) ,n); printf("%10u %5.1f%%", l, (double)l*100.0/n); TMBENCH("",p4nzdec32( out, m, cpy) ,n); break;
case 4: TMBENCH("\np4nzenc128v32 ",l=p4nzenc128v32( in, m, out) ,n); printf("%10u %5.1f%%", l, (double)l*100.0/n); TMBENCH("",p4nzdec128v32( out, m, cpy) ,n); break;
case 3: TMBENCH("\np4nzenc32 ",l=p4nzenc32( in, m, out) ,n); pr(l,n); TMBENCH("",p4nzdec32( out, m, cpy) ,n); break;
case 4: TMBENCH("\np4nzenc128v32 ",l=p4nzenc128v32( in, m, out) ,n); pr(l,n); TMBENCH("",p4nzdec128v32( out, m, cpy) ,n); break;
case 5: TMBENCH("\np4ndenc32 ",l=p4ndenc32( in, m, out) ,n); printf("%10u %5.1f%%", l, (double)l*100.0/n); TMBENCH("",p4nddec32( out, m, cpy) ,n); break;
case 6: TMBENCH("\np4ndenc128v32 ",l=p4ndenc128v32( in, m, out) ,n); printf("%10u %5.1f%%", l, (double)l*100.0/n); TMBENCH("",p4nddec128v32( out, m, cpy) ,n); break;
case 5: TMBENCH("\np4ndenc32 ",l=p4ndenc32( in, m, out) ,n); pr(l,n); TMBENCH("",p4nddec32( out, m, cpy) ,n); break;
case 6: TMBENCH("\np4ndenc128v32 ",l=p4ndenc128v32( in, m, out) ,n); pr(l,n); TMBENCH("",p4nddec128v32( out, m, cpy) ,n); break;
case 7: TMBENCH("\np4nd1enc32 ",l=p4nd1enc32( in, m, out) ,n); printf("%10u %5.1f%%", l, (double)l*100.0/n); TMBENCH("",p4nd1dec32( out, m, cpy) ,n); break;
case 8: TMBENCH("\np4nd1enc128v32 ",l=p4nd1enc128v32( in, m, out) ,n); printf("%10u %5.1f%%", l, (double)l*100.0/n); TMBENCH("",p4nd1dec128v32( out, m, cpy) ,n); break;
case 7: TMBENCH("\np4nd1enc32 ",l=p4nd1enc32( in, m, out) ,n); pr(l,n); TMBENCH("",p4nd1dec32( out, m, cpy) ,n); break;
case 8: TMBENCH("\np4nd1enc128v32 ",l=p4nd1enc128v32( in, m, out) ,n); pr(l,n); TMBENCH("",p4nd1dec128v32( out, m, cpy) ,n); break;
case 9: TMBENCH("\nvbzenc32 ",l=vbzenc32( in, m, out,0)-out,n); printf("%10u %5.1f%%", l, (double)l*100.0/n); TMBENCH("",vbzdec32( out, m, cpy,0) ,n); break;
case 9: TMBENCH("\nvbzenc32 ",l=vbzenc32( in, m, out,0)-out,n); pr(l,n); TMBENCH("",vbzdec32( out, m, cpy,0) ,n); break;
case 10: TMBENCH("\nbitnpack32 ",l=bitnpack32( in, m, out) ,n); printf("%10u %5.1f%%", l, (double)l*100.0/n); TMBENCH("",bitnunpack32( out, m, cpy) ,n); break;
case 11: TMBENCH("\nbitnpack128v32 ",l=bitnpack128v32( in, m, out) ,n); printf("%10u %5.1f%%", l, (double)l*100.0/n); TMBENCH("",bitnunpack128v32( out, m, cpy) ,n); break;
case 10: TMBENCH("\nbitnpack32 ",l=bitnpack32( in, m, out) ,n); pr(l,n); TMBENCH("",bitnunpack32( out, m, cpy) ,n); break;
case 11: TMBENCH("\nbitnpack128v32 ",l=bitnpack128v32( in, m, out) ,n); pr(l,n); TMBENCH("",bitnunpack128v32( out, m, cpy) ,n); break;
case 12: TMBENCH("\nbitnzpack32 ",l=bitnzpack32( in, m, out) ,n); printf("%10u %5.1f%%", l, (double)l*100.0/n); TMBENCH("",bitnzunpack32( out, m, cpy) ,n); break;
case 13: TMBENCH("\nbitnzpack128v32 ",l=bitnzpack128v32( in, m, out) ,n); printf("%10u %5.1f%%", l, (double)l*100.0/n); TMBENCH("",bitnzunpack128v32(out, m, cpy) ,n); break;
case 12: TMBENCH("\nbitnzpack32 ",l=bitnzpack32( in, m, out) ,n); pr(l,n); TMBENCH("",bitnzunpack32( out, m, cpy) ,n); break;
case 13: TMBENCH("\nbitnzpack128v32 ",l=bitnzpack128v32( in, m, out) ,n); pr(l,n); TMBENCH("",bitnzunpack128v32(out, m, cpy) ,n); break;
case 14: TMBENCH("\nbitndpack32 ",l=bitndpack32( in, m, out) ,n); printf("%10u %5.1f%%", l, (double)l*100.0/n); TMBENCH("",bitndunpack32( out, m, cpy) ,n); break;
case 15: TMBENCH("\nbitndpack128v32 ",l=bitndpack128v32( in, m, out) ,n); printf("%10u %5.1f%%", l, (double)l*100.0/n); TMBENCH("",bitndunpack128v32(out, m, cpy) ,n); break;
case 14: TMBENCH("\nbitndpack32 ",l=bitndpack32( in, m, out) ,n); pr(l,n); TMBENCH("",bitndunpack32( out, m, cpy) ,n); break;
case 15: TMBENCH("\nbitndpack128v32 ",l=bitndpack128v32( in, m, out) ,n); pr(l,n); TMBENCH("",bitndunpack128v32(out, m, cpy) ,n); break;
case 16: TMBENCH("\nbitnd1pack32 ",l=bitnd1pack32( in, m, out) ,n); printf("%10u %5.1f%%", l, (double)l*100.0/n); TMBENCH("",bitnd1unpack32( out, m, cpy) ,n); break;
case 17: TMBENCH("\nbitnd1pack128v32",l=bitnd1pack128v32( in, m, out) ,n); printf("%10u %5.1f%%", l, (double)l*100.0/n); TMBENCH("",bitnd1unpack128v32(out, m, cpy) ,n); break;
case 16: TMBENCH("\nbitnd1pack32 ",l=bitnd1pack32( in, m, out) ,n); pr(l,n); TMBENCH("",bitnd1unpack32( out, m, cpy) ,n); break;
case 17: TMBENCH("\nbitnd1pack128v32",l=bitnd1pack128v32( in, m, out) ,n); pr(l,n); TMBENCH("",bitnd1unpack128v32(out, m, cpy) ,n); break;
case 18: TMBENCH("\np4nsenc32 ",l=p4nsenc32( in, m, out) ,n); pr(l,n); TMBENCH("",p4nsdec32( out, m, cpy) ,n); break;
#if defined(__AVX2__) && defined(USE_AVX2)
case 18: TMBENCH("\np4nenc256v32 ", l=p4nenc256v32( in, m, out) ,n); printf("%10u %5.1f%%", l, (double)l*100.0/n); TMBENCH("",p4ndec256v32( out, m, cpy) ,n); break;
case 19: TMBENCH("\np4nzenc256v32 ", l=p4nzenc256v32( in, m, out) ,n); printf("%10u %5.1f%%", l, (double)l*100.0/n); TMBENCH("",p4nzdec256v32( out, m, cpy) ,n); break;
case 20: TMBENCH("\np4ndenc256v32 ", l=p4ndenc256v32( in, m, out) ,n); printf("%10u %5.1f%%", l, (double)l*100.0/n); TMBENCH("",p4nddec256v32( out, m, cpy) ,n); break;
case 21: TMBENCH("\nbitnpack256v32 ", l=bitnpack256v32( in, m, out) ,n); printf("%10u %5.1f%%", l, (double)l*100.0/n); TMBENCH("",bitnunpack256v32( out, m, cpy) ,n); break;
case 22: TMBENCH("\nbitnzpack256v32 ", l=bitnzpack256v32( in, m, out) ,n); printf("%10u %5.1f%%", l, (double)l*100.0/n); TMBENCH("",bitnzunpack256v32(out, m, cpy) ,n); break;
case 23: TMBENCH("\nbitndpack256v32 ", l=bitndpack256v32( in, m, out) ,n); printf("%10u %5.1f%%", l, (double)l*100.0/n); TMBENCH("",bitndunpack256v32(out, m, cpy) ,n); break;
case 24: TMBENCH("\nbitnd1pack256v32",l=bitnd1pack256v32( in, m, out) ,n); printf("%10u %5.1f%%", l, (double)l*100.0/n); TMBENCH("",bitnd1unpack256v32(out, m, cpy) ,n); break;
case 19: TMBENCH("\np4nenc256v32 ", l=p4nenc256v32( in, m, out) ,n); pr(l,n); TMBENCH("",p4ndec256v32( out, m, cpy) ,n); break;
case 20: TMBENCH("\np4nzenc256v32 ", l=p4nzenc256v32( in, m, out) ,n); pr(l,n); TMBENCH("",p4nzdec256v32( out, m, cpy) ,n); break;
case 21: TMBENCH("\np4ndenc256v32 ", l=p4ndenc256v32( in, m, out) ,n); pr(l,n); TMBENCH("",p4nddec256v32( out, m, cpy) ,n); break;
case 22: TMBENCH("\nbitnpack256v32 ", l=bitnpack256v32( in, m, out) ,n); pr(l,n); TMBENCH("",bitnunpack256v32( out, m, cpy) ,n); break;
case 23: TMBENCH("\nbitnzpack256v32 ", l=bitnzpack256v32( in, m, out) ,n); pr(l,n); TMBENCH("",bitnzunpack256v32(out, m, cpy) ,n); break;
case 24: TMBENCH("\nbitndpack256v32 ", l=bitndpack256v32( in, m, out) ,n); pr(l,n); TMBENCH("",bitndunpack256v32(out, m, cpy) ,n); break;
case 25: TMBENCH("\nbitnd1pack256v32",l=bitnd1pack256v32( in, m, out) ,n); pr(l,n); TMBENCH("",bitnd1unpack256v32(out, m, cpy) ,n); break;
#endif
case ID_MEMCPY: TMBENCH("\nmemcpy ",libmemcpy( in,out,n) ,n); printf("%10u %5.1f%%", n, (double)100.0); return n;
case ID_MEMCPY: if(!mcpy) return l; TMBENCH("\nmemcpy ",libmemcpy( in,out,n) ,n); printf("%10u %5.1f%%", n, (double)100.0); return n;
default: return l;
}
printf(" %s ", inname);
memcheck(in,m*4,cpy);
return l;
}
unsigned bench16(unsigned char *in, unsigned n, unsigned char *out, unsigned char *cpy, int id) {
unsigned bench16(unsigned char *in, unsigned n, unsigned char *out, unsigned char *cpy, int id, char *inname) {
unsigned l,m=n/2;
memrcpy(cpy,in,n);
switch(id) {
case 1: TMBENCH("\np4nenc16 ",l=p4nenc16( in, m, out) ,n); printf("%10u %5.1f%%", l, (double)l*100.0/n); TMBENCH("",p4ndec16( out, m, cpy) ,n); break;
case 2: TMBENCH("\np4nenc128v16 ",l=p4nenc128v16( in, m, out) ,n); printf("%10u %5.1f%%", l, (double)l*100.0/n); TMBENCH("",p4ndec128v16( out, m, cpy) ,n); break;
case 1: TMBENCH("\np4nenc16 ",l=p4nenc16( in, m, out) ,n); pr(l,n); TMBENCH("",p4ndec16( out, m, cpy) ,n); break;
case 2: TMBENCH("\np4nenc128v16 ",l=p4nenc128v16( in, m, out) ,n); pr(l,n); TMBENCH("",p4ndec128v16( out, m, cpy) ,n); break;
case 3: TMBENCH("\np4nzenc16 ",l=p4nzenc16( in, m, out) ,n); printf("%10u %5.1f%%", l, (double)l*100.0/n); TMBENCH("",p4nzdec16( out, m, cpy) ,n); break;
case 4: TMBENCH("\np4nzenc128v16 ",l=p4nzenc128v16( in, m, out) ,n); printf("%10u %5.1f%%", l, (double)l*100.0/n); TMBENCH("",p4nzdec128v16( out, m, cpy) ,n); break;
case 3: TMBENCH("\np4nzenc16 ",l=p4nzenc16( in, m, out) ,n); pr(l,n); TMBENCH("",p4nzdec16( out, m, cpy) ,n); break;
case 4: TMBENCH("\np4nzenc128v16 ",l=p4nzenc128v16( in, m, out) ,n); pr(l,n); TMBENCH("",p4nzdec128v16( out, m, cpy) ,n); break;
case 5: TMBENCH("\np4ndenc16 ",l=p4ndenc16( in, m, out) ,n); printf("%10u %5.1f%%", l, (double)l*100.0/n); TMBENCH("",p4nddec16( out, m, cpy) ,n); break;
case 6: TMBENCH("\np4ndenc128v16 ",l=p4ndenc128v16( in, m, out) ,n); printf("%10u %5.1f%%", l, (double)l*100.0/n); TMBENCH("",p4nddec128v16( out, m, cpy) ,n); break;
case 5: TMBENCH("\np4ndenc16 ",l=p4ndenc16( in, m, out) ,n); pr(l,n); TMBENCH("",p4nddec16( out, m, cpy) ,n); break;
case 6: TMBENCH("\np4ndenc128v16 ",l=p4ndenc128v16( in, m, out) ,n); pr(l,n); TMBENCH("",p4nddec128v16( out, m, cpy) ,n); break;
case 7: TMBENCH("\np4nd1enc16 ",l=p4nd1enc16( in, m, out) ,n); printf("%10u %5.1f%%", l, (double)l*100.0/n); TMBENCH("",p4nd1dec16( out, m, cpy) ,n); break;
case 8: TMBENCH("\np4nd1enc128v16 ",l=p4nd1enc128v16( in, m, out) ,n); printf("%10u %5.1f%%", l, (double)l*100.0/n); TMBENCH("",p4nd1dec128v16( out, m, cpy) ,n); break;
case 9: TMBENCH("\nvbzenc16 ",l=vbzenc16( in, m, out,0)-out,n); printf("%10u %5.1f%%", l, (double)l*100.0/n); TMBENCH("",vbzdec16( out, m, cpy,0) ,n); break;
case 7: TMBENCH("\np4nd1enc16 ",l=p4nd1enc16( in, m, out) ,n); pr(l,n); TMBENCH("",p4nd1dec16( out, m, cpy) ,n); break;
case 8: TMBENCH("\np4nd1enc128v16 ",l=p4nd1enc128v16( in, m, out) ,n); pr(l,n); TMBENCH("",p4nd1dec128v16( out, m, cpy) ,n); break;
case 9: TMBENCH("\nvbzenc16 ",l=vbzenc16( in, m, out,0)-out,n); pr(l,n); TMBENCH("",vbzdec16( out, m, cpy,0) ,n); break;
case 10: TMBENCH("\nbitnpack16 ",l=bitnpack16( in, m, out) ,n); printf("%10u %5.1f%%", l, (double)l*100.0/n); TMBENCH("",bitnunpack16( out, m, cpy) ,n); break;
case 11: TMBENCH("\nbitnpack128v16 ",l=bitnpack128v16( in, m, out) ,n); printf("%10u %5.1f%%", l, (double)l*100.0/n); TMBENCH("",bitnunpack128v16( out, m, cpy) ,n); break;
case 10: TMBENCH("\nbitnpack16 ",l=bitnpack16( in, m, out) ,n); pr(l,n); TMBENCH("",bitnunpack16( out, m, cpy) ,n); break;
case 11: TMBENCH("\nbitnpack128v16 ",l=bitnpack128v16( in, m, out) ,n); pr(l,n); TMBENCH("",bitnunpack128v16( out, m, cpy) ,n); break;
case 12: TMBENCH("\nbitnzpack16 ",l=bitnzpack16( in, m, out) ,n); printf("%10u %5.1f%%", l, (double)l*100.0/n); TMBENCH("",bitnzunpack16( out, m, cpy) ,n); break;
case 13: TMBENCH("\nbitnzpack128v16 ",l=bitnzpack128v16( in, m, out) ,n); printf("%10u %5.1f%%", l, (double)l*100.0/n); TMBENCH("",bitnzunpack128v16(out, m, cpy) ,n); break;
case 12: TMBENCH("\nbitnzpack16 ",l=bitnzpack16( in, m, out) ,n); pr(l,n); TMBENCH("",bitnzunpack16( out, m, cpy) ,n); break;
case 13: TMBENCH("\nbitnzpack128v16 ",l=bitnzpack128v16( in, m, out) ,n); pr(l,n); TMBENCH("",bitnzunpack128v16(out, m, cpy) ,n); break;
case 14: TMBENCH("\nbitndpack16 ",l=bitndpack16( in, m, out) ,n); printf("%10u %5.1f%%", l, (double)l*100.0/n); TMBENCH("",bitndunpack16( out, m, cpy) ,n); break;
case 15: TMBENCH("\nbitndpack128v16 ",l=bitndpack128v16( in, m, out) ,n); printf("%10u %5.1f%%", l, (double)l*100.0/n); TMBENCH("",bitndunpack128v16(out, m, cpy) ,n); break;
case 14: TMBENCH("\nbitndpack16 ",l=bitndpack16( in, m, out) ,n); pr(l,n); TMBENCH("",bitndunpack16( out, m, cpy) ,n); break;
case 15: TMBENCH("\nbitndpack128v16 ",l=bitndpack128v16( in, m, out) ,n); pr(l,n); TMBENCH("",bitndunpack128v16(out, m, cpy) ,n); break;
case 16: TMBENCH("\nbitnd1pack16 ",l=bitnd1pack16( in, m, out) ,n); printf("%10u %5.1f%%", l, (double)l*100.0/n); TMBENCH("",bitnd1unpack16( out, m, cpy) ,n); break;
case 17: TMBENCH("\nbitnd1pack128v16",l=bitnd1pack128v16( in, m, out) ,n); printf("%10u %5.1f%%", l, (double)l*100.0/n); TMBENCH("",bitnd1unpack128v16(out, m, cpy) ,n); break;
case ID_MEMCPY: TMBENCH("\nmemcpy ",libmemcpy( in,out,n) ,n); printf("%10u %5.1f%%", n, (double)100.0); return n;
case 16: TMBENCH("\nbitnd1pack16 ",l=bitnd1pack16( in, m, out) ,n); pr(l,n); TMBENCH("",bitnd1unpack16( out, m, cpy) ,n); break;
case 17: TMBENCH("\nbitnd1pack128v16",l=bitnd1pack128v16( in, m, out) ,n); pr(l,n); TMBENCH("",bitnd1unpack128v16(out, m, cpy) ,n); break;
case 18: TMBENCH("\np4nsenc16 ",l=p4nsenc16( in, m, out) ,n); pr(l,n); TMBENCH("",p4nsdec16( out, m, cpy) ,n); break;
case ID_MEMCPY: if(!mcpy) return l; TMBENCH("\nmemcpy ",libmemcpy( in,out,n) ,n); printf("%10u %5.1f%%", n, (double)100.0); return n;
default: return l;
}
printf(" %s ", inname);
memcheck(in,m*2,cpy);
return l;
}
int main(int argc, char* argv[]) {
unsigned trips = 4,cmp=1, b = 1 << 31, esize=4, lz=0, fno,idmin=1,idmax=-1, usize=4;
unsigned trips = 4,cmp=1, b = 1 << 31, esize=4, lz=0, fno,idmin=1,idmax=-1, usize=4, fsize=0;
unsigned char *in,*out,*cpy;
int c, digit_optind = 0, this_option_optind = optind ? optind : 1, option_index = 0;
static struct option long_options[] = { {"blocsize", 0, 0, 'b'}, {0, 0, 0} };
for(;;) {
if((c = getopt_long(argc, argv, "B:ce:E:i:I:s:", long_options, &option_index)) == -1) break;
if((c = getopt_long(argc, argv, "B:ce:E:f:i:I:ms:", long_options, &option_index)) == -1) break;
switch(c) {
case 0 : printf("Option %s", long_options[option_index].name); if(optarg) printf (" with arg %s", optarg); printf ("\n"); break;
case 'e': idmin = atoi(optarg); if(idmax == -1) idmax = idmin; break;
@ -191,13 +219,15 @@ int main(int argc, char* argv[]) {
case 's': usize = argtoi(optarg,1); break;
case 'B': b = argtoi(optarg,1); break;
case 'c': cmp++; break;
case 'm': mcpy++; break;
case 'f': fsize = argtoi(optarg,1); break;
}
}
if(idmax == -1) idmax = ID_MEMCPY;
if(idmax < idmin) idmax = idmin;
if(argc - optind < 1) { fprintf(stderr, "raw file not specified\n");
fprintf(stderr, "usage: icpp file [-s2|-s4] -e# -E#\n");
fprintf(stderr, "-s2:16 bits, -s4:32 bits, -s8:64 bits. #:function number -e:start -E:end\n");
fprintf(stderr, "usage: icpp file [-s2|-s4|-s8|-f8] -e# -E#\n");
fprintf(stderr, "Integer:-s2=16 -s4=32 -s8=64 bits. floating-point:-f8=64 bits. #:function number -e:start -E:end\n");
exit(-1);
}
@ -215,43 +245,24 @@ int main(int argc, char* argv[]) {
if(!(in = (unsigned char*)malloc(n+1024))) { fprintf(stderr, "malloc error\n"); exit(-1); } cpy = in;
if(!(out = (unsigned char*)malloc(flen*4/3+1024))) { fprintf(stderr, "malloc error\n"); exit(-1); }
if(cmp && !(cpy = (unsigned char*)malloc(n+1024))) { fprintf(stderr, "malloc error\n"); exit(-1); }
n = fread(in, 1, n, fi); printf("File='%s' Length=%u Integer size=%d\n", inname, n, usize);
n = fread(in, 1, n, fi);
fclose(fi);
if(n <= 0) exit(0);
if(fno == optind)
tm_init(trips, 1);
printf("function E MB/s size ratio D MB/s");
tm_init(trips, 1);
printf("function E MB/s size ratio D MB/s");
for(i=idmin; i <= idmax; i++)
switch(usize) {
case 2: bench16(in,n,out,cpy,i); break;
case 4: bench32(in,n,out,cpy,i); break;
case 8: bench64(in,n,out,cpy,i); break;
default: die("integer size must be 2 or 4\n");
if(fsize) switch(fsize) {
case 8: benchf64(in,n,out,cpy,i,inname); break;
default: die("floating point size must be 8\n");
}
else switch(usize) {
case 2: bench16(in,n,out,cpy,i,inname); break;
case 4: bench32(in,n,out,cpy,i,inname); break;
case 8: bench64(in,n,out,cpy,i,inname); break;
default: die("integer size must be 2, 4 or 8\n");
}
printf("\n");
}
}
/* fc_300MHz.dat skylake: i7-6700 3.4GHz
./icapp fc_300MHz.dat -I23
File='fc_300MHz.dat' Length=711595784
function E MB/s size ratio D MB/s
p4nenc16 639.32 441887368 62.1% 3440.60
p4nenc16v 684.74 441887368 62.1% 6235.07
p4nzenc16 507.39 332356287 46.7% 1796.33
p4nzenc16v 548.99 332356287 46.7% 2651.81
p4ndenc16 450.75 525441761 73.8% 1375.51
p4ndenc16v 459.79 525441761 73.8% 2340.81
vbzenc16 2228.28 390678354 54.9% 2028.28
bitnpack16 4139.86 587990808 82.6% 5244.86
bitnpack16v 6725.41 587990808 82.6% 9207.07
bitnzpack16 1439.90 594311978 83.5% 2442.53
bitnzpack16v 2219.25 594311978 83.5% 4417.38
bitndpack16 4637.59 713562010 100.3% 4942.12
bitndpack16v 6753.63 713562010 100.3% 6393.84
bitnd1pack16 2742.09 714375456 100.4% 4952.64
bitnd1pack16v 3600.12 714375456 100.4% 6301.49
memcpy 13429.38 711595784 100.0%
*/