multiexp: some speedups

- use a raw memory block to store cache
- use aligned memory
- use doubling API where appropriate
- calculate straus in bands
This commit is contained in:
moneromooo-monero 2018-03-25 12:17:37 +01:00
parent 71d67bda74
commit 126196b017
No known key found for this signature in database
GPG Key ID: 686F07454D6CEFC3
3 changed files with 122 additions and 29 deletions

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@ -70,8 +70,9 @@ static boost::mutex init_mutex;
static inline rct::key multiexp(const std::vector<MultiexpData> &data, bool HiGi) static inline rct::key multiexp(const std::vector<MultiexpData> &data, bool HiGi)
{ {
static const size_t STEP = getenv("STRAUS_STEP") ? atoi(getenv("STRAUS_STEP")) : 0;
if (HiGi || data.size() < 1000) if (HiGi || data.size() < 1000)
return straus(data, HiGi ? HiGi_cache: NULL); return straus(data, HiGi ? HiGi_cache: NULL, STEP);
else else
return bos_coster_heap_conv_robust(data); return bos_coster_heap_conv_robust(data);
} }

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@ -34,6 +34,7 @@ extern "C"
{ {
#include "crypto/crypto-ops.h" #include "crypto/crypto-ops.h"
} }
#include "common/aligned.h"
#include "rctOps.h" #include "rctOps.h"
#include "multiexp.h" #include "multiexp.h"
@ -43,6 +44,17 @@ extern "C"
//#define MULTIEXP_PERF(x) x //#define MULTIEXP_PERF(x) x
#define MULTIEXP_PERF(x) #define MULTIEXP_PERF(x)
#define RAW_MEMORY_BLOCK
//#define ALTERNATE_LAYOUT
//#define TRACK_STRAUS_ZERO_IDENTITY
// per points us for N/B points (B point bands)
// raw alt 128/192 4096/192 4096/4096
// 0 0 52.6 71 71.2
// 0 1 53.2 72.2 72.4
// 1 0 52.7 67 67.1
// 1 1 52.8 70.4 70.2
namespace rct namespace rct
{ {
@ -198,6 +210,7 @@ rct::key bos_coster_heap_conv_robust(std::vector<MultiexpData> data)
ge_cached cached; ge_cached cached;
ge_p1p1 p1; ge_p1p1 p1;
ge_p2 p2;
MULTIEXP_PERF(PERF_TIMER_RESUME(div)); MULTIEXP_PERF(PERF_TIMER_RESUME(div));
while (1) while (1)
@ -214,8 +227,8 @@ rct::key bos_coster_heap_conv_robust(std::vector<MultiexpData> data)
std::push_heap(heap.begin(), heap.end(), Comp); std::push_heap(heap.begin(), heap.end(), Comp);
} }
data[index1].scalar = div2(data[index1].scalar); data[index1].scalar = div2(data[index1].scalar);
ge_p3_to_cached(&cached, &data[index1].point); ge_p3_to_p2(&p2, &data[index1].point);
ge_add(&p1, &data[index1].point, &cached); ge_p2_dbl(&p1, &p2);
ge_p1p1_to_p3(&data[index1].point, &p1); ge_p1p1_to_p3(&data[index1].point, &p1);
} }
MULTIEXP_PERF(PERF_TIMER_PAUSE(div)); MULTIEXP_PERF(PERF_TIMER_PAUSE(div));
@ -259,12 +272,32 @@ rct::key bos_coster_heap_conv_robust(std::vector<MultiexpData> data)
return res; return res;
} }
static constexpr unsigned int STRAUS_C = 4;
struct straus_cached_data struct straus_cached_data
{ {
#ifdef RAW_MEMORY_BLOCK
size_t size;
ge_cached *multiples;
straus_cached_data(): size(0), multiples(NULL) {}
~straus_cached_data() { aligned_free(multiples); }
#else
std::vector<std::vector<ge_cached>> multiples; std::vector<std::vector<ge_cached>> multiples;
#endif
}; };
#ifdef RAW_MEMORY_BLOCK
static constexpr unsigned int STRAUS_C = 4; #ifdef ALTERNATE_LAYOUT
#define CACHE_OFFSET(cache,point,digit) cache->multiples[(point)*((1<<STRAUS_C)-1)+((digit)-1)]
#else
#define CACHE_OFFSET(cache,point,digit) cache->multiples[(point)+cache->size*((digit)-1)]
#endif
#else
#ifdef ALTERNATE_LAYOUT
#define CACHE_OFFSET(cache,point,digit) local_cache->multiples[j][digit-1]
#else
#define CACHE_OFFSET(cache,point,digit) local_cache->multiples[digit][j]
#endif
#endif
std::shared_ptr<straus_cached_data> straus_init_cache(const std::vector<MultiexpData> &data) std::shared_ptr<straus_cached_data> straus_init_cache(const std::vector<MultiexpData> &data)
{ {
@ -274,6 +307,36 @@ std::shared_ptr<straus_cached_data> straus_init_cache(const std::vector<Multiexp
ge_p3 p3; ge_p3 p3;
std::shared_ptr<straus_cached_data> cache(new straus_cached_data()); std::shared_ptr<straus_cached_data> cache(new straus_cached_data());
#ifdef RAW_MEMORY_BLOCK
const size_t offset = cache->size;
cache->multiples = (ge_cached*)aligned_realloc(cache->multiples, sizeof(ge_cached) * ((1<<STRAUS_C)-1) * std::max(offset, data.size()), 4096);
cache->size = data.size();
for (size_t j=offset;j<data.size();++j)
{
ge_p3_to_cached(&CACHE_OFFSET(cache, j, 1), &data[j].point);
for (size_t i=2;i<1<<STRAUS_C;++i)
{
ge_add(&p1, &data[j].point, &CACHE_OFFSET(cache, j, i-1));
ge_p1p1_to_p3(&p3, &p1);
ge_p3_to_cached(&CACHE_OFFSET(cache, j, i), &p3);
}
}
#else
#ifdef ALTERNATE_LAYOUT
const size_t offset = cache->multiples.size();
cache->multiples.resize(std::max(offset, data.size()));
for (size_t i = offset; i < data.size(); ++i)
{
cache->multiples[i].resize((1<<STRAUS_C)-1);
ge_p3_to_cached(&cache->multiples[i][0], &data[i].point);
for (size_t j=2;j<1<<STRAUS_C;++j)
{
ge_add(&p1, &data[i].point, &cache->multiples[i][j-2]);
ge_p1p1_to_p3(&p3, &p1);
ge_p3_to_cached(&cache->multiples[i][j-1], &p3);
}
}
#else
cache->multiples.resize(1<<STRAUS_C); cache->multiples.resize(1<<STRAUS_C);
size_t offset = cache->multiples[1].size(); size_t offset = cache->multiples[1].size();
cache->multiples[1].resize(std::max(offset, data.size())); cache->multiples[1].resize(std::max(offset, data.size()));
@ -290,6 +353,8 @@ std::shared_ptr<straus_cached_data> straus_init_cache(const std::vector<Multiexp
ge_p3_to_cached(&cache->multiples[i][j], &p3); ge_p3_to_cached(&cache->multiples[i][j], &p3);
} }
} }
#endif
#endif
MULTIEXP_PERF(PERF_TIMER_STOP(multiples)); MULTIEXP_PERF(PERF_TIMER_STOP(multiples));
return cache; return cache;
@ -298,15 +363,20 @@ std::shared_ptr<straus_cached_data> straus_init_cache(const std::vector<Multiexp
size_t straus_get_cache_size(const std::shared_ptr<straus_cached_data> &cache) size_t straus_get_cache_size(const std::shared_ptr<straus_cached_data> &cache)
{ {
size_t sz = 0; size_t sz = 0;
#ifdef RAW_MEMORY_BLOCK
sz += cache->size * sizeof(ge_cached) * ((1<<STRAUS_C)-1);
#else
for (const auto &e0: cache->multiples) for (const auto &e0: cache->multiples)
sz += e0.size() * sizeof(ge_p3); sz += e0.size() * sizeof(ge_cached);
#endif
return sz; return sz;
} }
rct::key straus(const std::vector<MultiexpData> &data, const std::shared_ptr<straus_cached_data> &cache) rct::key straus(const std::vector<MultiexpData> &data, const std::shared_ptr<straus_cached_data> &cache, size_t STEP)
{ {
MULTIEXP_PERF(PERF_TIMER_UNIT(straus, 1000000)); MULTIEXP_PERF(PERF_TIMER_UNIT(straus, 1000000));
bool HiGi = cache != NULL; bool HiGi = cache != NULL;
STEP = STEP ? STEP : 192;
MULTIEXP_PERF(PERF_TIMER_START_UNIT(setup, 1000000)); MULTIEXP_PERF(PERF_TIMER_START_UNIT(setup, 1000000));
static constexpr unsigned int mask = (1<<STRAUS_C)-1; static constexpr unsigned int mask = (1<<STRAUS_C)-1;
@ -315,9 +385,13 @@ rct::key straus(const std::vector<MultiexpData> &data, const std::shared_ptr<str
ge_p1p1 p1; ge_p1p1 p1;
ge_p3 p3; ge_p3 p3;
#ifdef TRACK_STRAUS_ZERO_IDENTITY
MULTIEXP_PERF(PERF_TIMER_START_UNIT(skip, 1000000));
std::vector<uint8_t> skip(data.size()); std::vector<uint8_t> skip(data.size());
for (size_t i = 0; i < data.size(); ++i) for (size_t i = 0; i < data.size(); ++i)
skip[i] = data[i].scalar == rct::zero() || !memcmp(&data[i].point, &ge_p3_identity, sizeof(ge_p3)); skip[i] = data[i].scalar == rct::zero() || !memcmp(&data[i].point, &ge_p3_identity, sizeof(ge_p3));
MULTIEXP_PERF(PERF_TIMER_STOP(skip));
#endif
MULTIEXP_PERF(PERF_TIMER_START_UNIT(digits, 1000000)); MULTIEXP_PERF(PERF_TIMER_START_UNIT(digits, 1000000));
std::vector<std::vector<uint8_t>> digits; std::vector<std::vector<uint8_t>> digits;
@ -361,36 +435,54 @@ rct::key straus(const std::vector<MultiexpData> &data, const std::shared_ptr<str
for (size_t i = 0; i < data.size(); ++i) for (size_t i = 0; i < data.size(); ++i)
if (maxscalar < data[i].scalar) if (maxscalar < data[i].scalar)
maxscalar = data[i].scalar; maxscalar = data[i].scalar;
size_t i = 0; size_t start_i = 0;
while (i < 256 && !(maxscalar < pow2(i))) while (start_i < 256 && !(maxscalar < pow2(start_i)))
i += STRAUS_C; start_i += STRAUS_C;
MULTIEXP_PERF(PERF_TIMER_STOP(setup)); MULTIEXP_PERF(PERF_TIMER_STOP(setup));
ge_p3 res_p3 = ge_p3_identity; ge_p3 res_p3 = ge_p3_identity;
for (size_t start_offset = 0; start_offset < data.size(); start_offset += STEP)
{
const size_t num_points = std::min(data.size() - start_offset, STEP);
ge_p3 band_p3 = ge_p3_identity;
size_t i = start_i;
if (!(i < STRAUS_C)) if (!(i < STRAUS_C))
goto skipfirst; goto skipfirst;
while (!(i < STRAUS_C)) while (!(i < STRAUS_C))
{ {
ge_p2 p2;
ge_p3_to_p2(&p2, &band_p3);
for (size_t j = 0; j < STRAUS_C; ++j) for (size_t j = 0; j < STRAUS_C; ++j)
{ {
ge_p3_to_cached(&cached, &res_p3); ge_p2_dbl(&p1, &p2);
ge_add(&p1, &res_p3, &cached); if (j == STRAUS_C - 1)
ge_p1p1_to_p3(&res_p3, &p1); ge_p1p1_to_p3(&band_p3, &p1);
else
ge_p1p1_to_p2(&p2, &p1);
} }
skipfirst: skipfirst:
i -= STRAUS_C; i -= STRAUS_C;
for (size_t j = 0; j < data.size(); ++j) for (size_t j = start_offset; j < start_offset + num_points; ++j)
{ {
#ifdef TRACK_STRAUS_ZERO_IDENTITY
if (skip[j]) if (skip[j])
continue; continue;
int digit = digits[j][i]; #endif
const uint8_t digit = digits[j][i];
if (digit) if (digit)
{ {
ge_add(&p1, &res_p3, &local_cache->multiples[digit][j]); ge_add(&p1, &band_p3, &CACHE_OFFSET(local_cache, j, digit));
ge_p1p1_to_p3(&band_p3, &p1);
}
}
}
ge_p3_to_cached(&cached, &band_p3);
ge_add(&p1, &res_p3, &cached);
ge_p1p1_to_p3(&res_p3, &p1); ge_p1p1_to_p3(&res_p3, &p1);
} }
}
}
rct::key res; rct::key res;
ge_p3_tobytes(res.bytes, &res_p3); ge_p3_tobytes(res.bytes, &res_p3);

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@ -59,7 +59,7 @@ rct::key bos_coster_heap_conv(std::vector<MultiexpData> data);
rct::key bos_coster_heap_conv_robust(std::vector<MultiexpData> data); rct::key bos_coster_heap_conv_robust(std::vector<MultiexpData> data);
std::shared_ptr<straus_cached_data> straus_init_cache(const std::vector<MultiexpData> &data); std::shared_ptr<straus_cached_data> straus_init_cache(const std::vector<MultiexpData> &data);
size_t straus_get_cache_size(const std::shared_ptr<straus_cached_data> &cache); size_t straus_get_cache_size(const std::shared_ptr<straus_cached_data> &cache);
rct::key straus(const std::vector<MultiexpData> &data, const std::shared_ptr<straus_cached_data> &cache = NULL); rct::key straus(const std::vector<MultiexpData> &data, const std::shared_ptr<straus_cached_data> &cache = NULL, size_t STEP = 0);
} }