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256 lines
8.7 KiB
C++
256 lines
8.7 KiB
C++
#ifndef Benchmark_IO_hpp_
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#define Benchmark_IO_hpp_
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#include <Grid/Grid.h>
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#ifdef HAVE_LIME
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#define MSG std::cout << GridLogMessage
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#define SEP \
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"-----------------------------------------------------------------------------"
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#define BIGSEP \
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"============================================================================="
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namespace Grid {
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template <typename Field>
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using WriterFn = std::function<void(const std::string, Field &)> ;
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template <typename Field>
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using ReaderFn = std::function<void(Field &, const std::string)>;
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// AP 06/10/2020: Standard C version in case one is suspicious of the C++ API
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//
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// template <typename Field>
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// void stdWrite(const std::string filestem, Field &vec)
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// {
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// std::string rankStr = std::to_string(vec.Grid()->ThisRank());
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// std::FILE *file = std::fopen((filestem + "." + rankStr + ".bin").c_str(), "wb");
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// size_t size;
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// uint32_t crc;
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// GridStopWatch ioWatch, crcWatch;
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// size = vec.Grid()->lSites()*sizeof(typename Field::scalar_object);
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// autoView(vec_v, vec, CpuRead);
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// crcWatch.Start();
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// crc = GridChecksum::crc32(vec_v.cpu_ptr, size);
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// std::fwrite(&crc, sizeof(uint32_t), 1, file);
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// crcWatch.Stop();
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// MSG << "Std I/O write: Data CRC32 " << std::hex << crc << std::dec << std::endl;
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// ioWatch.Start();
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// std::fwrite(vec_v.cpu_ptr, sizeof(typename Field::scalar_object), vec.Grid()->lSites(), file);
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// ioWatch.Stop();
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// std::fclose(file);
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// size *= vec.Grid()->ProcessorCount();
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// auto &p = BinaryIO::lastPerf;
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// p.size = size;
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// p.time = ioWatch.useconds();
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// p.mbytesPerSecond = size/1024./1024./(ioWatch.useconds()/1.e6);
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// MSG << "Std I/O write: Wrote " << p.size << " bytes in " << ioWatch.Elapsed()
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// << ", " << p.mbytesPerSecond << " MB/s" << std::endl;
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// MSG << "Std I/O write: checksum overhead " << crcWatch.Elapsed() << std::endl;
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// }
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//
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// template <typename Field>
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// void stdRead(Field &vec, const std::string filestem)
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// {
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// std::string rankStr = std::to_string(vec.Grid()->ThisRank());
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// std::FILE *file = std::fopen((filestem + "." + rankStr + ".bin").c_str(), "rb");
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// size_t size;
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// uint32_t crcRead, crcData;
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// GridStopWatch ioWatch, crcWatch;
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// size = vec.Grid()->lSites()*sizeof(typename Field::scalar_object);
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// crcWatch.Start();
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// std::fread(&crcRead, sizeof(uint32_t), 1, file);
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// crcWatch.Stop();
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// {
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// autoView(vec_v, vec, CpuWrite);
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// ioWatch.Start();
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// std::fread(vec_v.cpu_ptr, sizeof(typename Field::scalar_object), vec.Grid()->lSites(), file);
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// ioWatch.Stop();
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// std::fclose(file);
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// }
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// {
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// autoView(vec_v, vec, CpuRead);
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// crcWatch.Start();
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// crcData = GridChecksum::crc32(vec_v.cpu_ptr, size);
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// crcWatch.Stop();
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// }
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// MSG << "Std I/O read: Data CRC32 " << std::hex << crcData << std::dec << std::endl;
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// assert(crcData == crcRead);
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// size *= vec.Grid()->ProcessorCount();
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// auto &p = BinaryIO::lastPerf;
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// p.size = size;
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// p.time = ioWatch.useconds();
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// p.mbytesPerSecond = size/1024./1024./(ioWatch.useconds()/1.e6);
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// MSG << "Std I/O read: Read " << p.size << " bytes in " << ioWatch.Elapsed()
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// << ", " << p.mbytesPerSecond << " MB/s" << std::endl;
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// MSG << "Std I/O read: checksum overhead " << crcWatch.Elapsed() << std::endl;
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// }
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template <typename Field>
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void stdWrite(const std::string filestem, Field &vec)
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{
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std::string rankStr = std::to_string(vec.Grid()->ThisRank());
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std::ofstream file(filestem + "." + rankStr + ".bin", std::ios::out | std::ios::binary);
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size_t size, sizec;
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uint32_t crc;
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GridStopWatch ioWatch, crcWatch;
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size = vec.Grid()->lSites()*sizeof(typename Field::scalar_object);
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sizec = size/sizeof(char); // just in case of...
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autoView(vec_v, vec, CpuRead);
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crcWatch.Start();
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crc = GridChecksum::crc32(vec_v.cpu_ptr, size);
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file.write(reinterpret_cast<char *>(&crc), sizeof(uint32_t)/sizeof(char));
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crcWatch.Stop();
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MSG << "Std I/O write: Data CRC32 " << std::hex << crc << std::dec << std::endl;
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ioWatch.Start();
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file.write(reinterpret_cast<char *>(vec_v.cpu_ptr), sizec);
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file.flush();
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ioWatch.Stop();
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size *= vec.Grid()->ProcessorCount();
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auto &p = BinaryIO::lastPerf;
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p.size = size;
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p.time = ioWatch.useconds();
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p.mbytesPerSecond = size/1024./1024./(ioWatch.useconds()/1.e6);
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MSG << "Std I/O write: Wrote " << p.size << " bytes in " << ioWatch.Elapsed()
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<< ", " << p.mbytesPerSecond << " MB/s" << std::endl;
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MSG << "Std I/O write: checksum overhead " << crcWatch.Elapsed() << std::endl;
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}
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template <typename Field>
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void stdRead(Field &vec, const std::string filestem)
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{
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std::string rankStr = std::to_string(vec.Grid()->ThisRank());
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std::ifstream file(filestem + "." + rankStr + ".bin", std::ios::in | std::ios::binary);
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size_t size, sizec;
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uint32_t crcRead, crcData;
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GridStopWatch ioWatch, crcWatch;
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size = vec.Grid()->lSites()*sizeof(typename Field::scalar_object);
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sizec = size/sizeof(char); // just in case of...
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crcWatch.Start();
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file.read(reinterpret_cast<char *>(&crcRead), sizeof(uint32_t)/sizeof(char));
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crcWatch.Stop();
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{
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autoView(vec_v, vec, CpuWrite);
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ioWatch.Start();
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file.read(reinterpret_cast<char *>(vec_v.cpu_ptr), sizec);
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ioWatch.Stop();
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}
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{
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autoView(vec_v, vec, CpuRead);
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crcWatch.Start();
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crcData = GridChecksum::crc32(vec_v.cpu_ptr, size);
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crcWatch.Stop();
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}
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MSG << "Std I/O read: Data CRC32 " << std::hex << crcData << std::dec << std::endl;
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assert(crcData == crcRead);
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size *= vec.Grid()->ProcessorCount();
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auto &p = BinaryIO::lastPerf;
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p.size = size;
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p.time = ioWatch.useconds();
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p.mbytesPerSecond = size/1024./1024./(ioWatch.useconds()/1.e6);
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MSG << "Std I/O read: Read " << p.size << " bytes in " << ioWatch.Elapsed()
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<< ", " << p.mbytesPerSecond << " MB/s" << std::endl;
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MSG << "Std I/O read: checksum overhead " << crcWatch.Elapsed() << std::endl;
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}
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template <typename Field>
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void limeWrite(const std::string filestem, Field &vec)
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{
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emptyUserRecord record;
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ScidacWriter binWriter(vec.Grid()->IsBoss());
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binWriter.open(filestem + ".lime.bin");
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binWriter.writeScidacFieldRecord(vec, record);
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binWriter.close();
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}
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template <typename Field>
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void limeRead(Field &vec, const std::string filestem)
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{
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emptyUserRecord record;
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ScidacReader binReader;
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binReader.open(filestem + ".lime.bin");
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binReader.readScidacFieldRecord(vec, record);
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binReader.close();
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}
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inline void makeGrid(std::shared_ptr<GridBase> &gPt,
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const std::shared_ptr<GridCartesian> &gBasePt,
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const unsigned int Ls = 1, const bool rb = false)
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{
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if (rb)
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{
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if (Ls > 1)
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{
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gPt.reset(SpaceTimeGrid::makeFiveDimRedBlackGrid(Ls, gBasePt.get()));
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}
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else
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{
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gPt.reset(SpaceTimeGrid::makeFourDimRedBlackGrid(gBasePt.get()));
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}
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}
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else
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{
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if (Ls > 1)
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{
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gPt.reset(SpaceTimeGrid::makeFiveDimGrid(Ls, gBasePt.get()));
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}
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else
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{
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gPt = gBasePt;
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}
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}
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}
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template <typename Field>
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void writeBenchmark(const Coordinate &latt, const std::string filename,
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const WriterFn<Field> &write,
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const unsigned int Ls = 1, const bool rb = false)
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{
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auto mpi = GridDefaultMpi();
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auto simd = GridDefaultSimd(latt.size(), Field::vector_type::Nsimd());
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std::shared_ptr<GridCartesian> gBasePt(SpaceTimeGrid::makeFourDimGrid(latt, simd, mpi));
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std::shared_ptr<GridBase> gPt;
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std::random_device rd;
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makeGrid(gPt, gBasePt, Ls, rb);
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GridBase *g = gPt.get();
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GridParallelRNG rng(g);
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Field vec(g);
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rng.SeedFixedIntegers({static_cast<int>(rd()), static_cast<int>(rd()),
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static_cast<int>(rd()), static_cast<int>(rd()),
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static_cast<int>(rd()), static_cast<int>(rd()),
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static_cast<int>(rd()), static_cast<int>(rd())});
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random(rng, vec);
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write(filename, vec);
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}
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template <typename Field>
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void readBenchmark(const Coordinate &latt, const std::string filename,
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const ReaderFn<Field> &read,
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const unsigned int Ls = 1, const bool rb = false)
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{
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auto mpi = GridDefaultMpi();
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auto simd = GridDefaultSimd(latt.size(), Field::vector_type::Nsimd());
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std::shared_ptr<GridCartesian> gBasePt(SpaceTimeGrid::makeFourDimGrid(latt, simd, mpi));
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std::shared_ptr<GridBase> gPt;
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makeGrid(gPt, gBasePt, Ls, rb);
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GridBase *g = gPt.get();
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Field vec(g);
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read(vec, filename);
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}
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}
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#endif //LIME
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#endif // Benchmark_IO_hpp_
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