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doinachiroiu 2020-08-27 12:54:57 +00:00
parent 5ae99706e2
commit bb623d4c0b
3 changed files with 79 additions and 67 deletions
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2
oss-internship-2020/pffft/CMakeLists.txt
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@ -88,7 +88,7 @@ add_sapi_library(pffft_sapi
INPUTS master/pffft.h master/fftpack.h
LIBRARY pffft
LIBRARY_NAME pffft
LIBRARY_NAME Pffft
NAMESPACE ""
)

36
oss-internship-2020/pffft/README.md
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@ -4,7 +4,9 @@ Build System: CMake
OS: Linux
### Check out the PFFFT library & CMake set up
`git submodule add https://bitbucket.org/jpommier/pffft.git`
`git clone https://github.com/doinachiroiu/sandboxed-api/tree/master/oss-internship-2020/pffft`
`git submodule update --init --recursive`
`mkdir -p build && cd build`
@ -22,7 +24,7 @@ display custom info with
## ***About the project***
*PFFFT library is concerned with 1D Fast-Fourier Transformations finding a
compromise between accuracy and speed. It deals with real and complex
vectors, both cases being illustrated in the testing part (`main_pffft.c`
vectors, both cases being illustrated in the testing part (`test_pffft.c`
for initially and original version, `main_pffft_sandboxed.cc` for our
currently implemented sandboxed version).
The original files can be found at: https://bitbucket.org/jpommier/pffft/src.*
@ -62,21 +64,23 @@ In the end, the performance of PFFFT library it is outlined by the output.*
### Bugs history
1. [Solved] pffft benchmark bug: "Sandbox not active"
N = 64, status OK, pffft_transform generates error
N > 64, status not OK
Problem on initialising sapi::StatusOr<PFFFT_Setup *> s; the memory that stays
for s is not the same with the address passed in pffft_transform function.
(sapi::v::GenericPtr - to be changed)
1. [Solved] pffft benchmark bug: "Sandbox not active"
N = 64, status OK, pffft_transform generates error
N > 64, status not OK
Problem on initialising sapi::StatusOr<PFFFT_Setup *> s; the memory that stays
for s is not the same with the address passed in pffft_transform function.
(sapi::v::GenericPtr - to be changed)
Temporary solution: change the generated files to accept
uintptr_t instead of PFFFT_Setup
Temporary solution: change the generated files to accept
uintptr_t instead of PFFFT_Setup
Solution: using "sapi::v::RemotePtr" instead of "sapi::v::GenericPtr"
to access the memory of object s
Solution: using "sapi::v::RemotePtr" instead of "sapi::v::GenericPtr"
to access the memory of object s
2. [Unresolved] compiling bug: "No space left on device"
The building process creates some `embed` files that use lots of
memory, trying to write them on /tmp.
2. [Unresolved] compiling bug: "No space left on device"
The building process creates some `embed` files that use lots of
memory, trying to write them on /tmp.
Temporary solution: clean /tmp directory by `sudo rm -rf /tmp/*`.
Temporary solution: clean /tmp directory by `sudo rm -rf /tmp/*`.

108
oss-internship-2020/pffft/main_pffft_sandboxed.cc
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@ -30,10 +30,10 @@
ABSL_DECLARE_FLAG(string, sandbox2_danger_danger_permit_all);
ABSL_DECLARE_FLAG(string, sandbox2_danger_danger_permit_all_and_log);
class PffftSapiSandbox : public pffftSandbox {
class PffftSapiSandbox : public PffftSandbox {
public:
std::unique_ptr<sandbox2::Policy> ModifyPolicy(
sandbox2::PolicyBuilder*) override {
sandbox2::PolicyBuilder*) {
return sandbox2::PolicyBuilder()
.AllowStaticStartup()
.AllowOpen()
@ -50,11 +50,11 @@ class PffftSapiSandbox : public pffftSandbox {
}
};
double UclockSec(void) { return (double)clock() / (double)CLOCKS_PER_SEC; }
double UclockSec() { return static_cast<double>(clock()) / CLOCKS_PER_SEC; }
int array_output_format = 0;
void ShowOutput(const char* name, int N, int cplx, float flops, float t0,
void ShowOutput(const char* name, int n, int cplx, float flops, float t0,
float t1, int max_iter) {
float mflops = flops / 1e6 / (t1 - t0 + 1e-16);
if (array_output_format) {
@ -64,7 +64,7 @@ void ShowOutput(const char* name, int N, int cplx, float flops, float t0,
printf("| n/a ");
} else {
if (flops != -1) {
printf("N=%5d, %s %16s : %6.0f MFlops [t=%6.0f ns, %d runs]\n", N,
printf("n=%5d, %s %16s : %6.0f MFlops [t=%6.0f ns, %d runs]\n", n,
(cplx ? "CPLX" : "REAL"), name, mflops,
(t1 - t0) / 2 / max_iter * 1e9, max_iter);
}
@ -72,55 +72,64 @@ void ShowOutput(const char* name, int N, int cplx, float flops, float t0,
fflush(stdout);
}
absl::Status PffftMain() {
PffftSapiSandbox sandbox;
SAPI_RETURN_IF_ERROR(sandbox.Init());
return absl::OkStatus();
}
int main(int argc, char* argv[]) {
// Initialize Google's logging library.
google::InitGoogleLogging(argv[0]);
gflags::ParseCommandLineFlags(&argc, &argv, true);
// Nvalues is a vector keeping the values by which iterates N, its value
// representing the input length. More concrete, N is the number of
// kTransformSizes is a vector keeping the values by which iterates n, its value
// representing the input length. More concrete, n is the number of
// data points the caclulus is up to (determinating its accuracy).
// To show the performance of Fast-Fourier Transformations the program is
// testing for various values of N.
int Nvalues[] = {64, 96, 128, 160, 192, 256,
// testing for various values of n.
constexpr int kTransformSizes[] = {64, 96, 128, 160, 192, 256,
384, 5 * 96, 512, 5 * 128, 3 * 256, 800,
1024, 2048, 2400, 4096, 8192, 9 * 1024,
16384, 32768};
int i;
LOG(INFO) << "Initializing sandbox...\n";
PffftSapiSandbox sandbox;
absl::Status init_status = sandbox.Init();
LOG(INFO) << "Initialization: " << init_status.ToString().c_str() << "\n";
if (absl::Status status = PffftMain(); !status.ok()) {
LOG(ERROR) << "Initialization failed: " << status.ToString();
return EXIT_FAILURE;
}
pffftApi api(&sandbox);
LOG(INFO) << "Initialization: " << init_status.ToString();
PffftApi api(&sandbox);
int cplx = 0;
do {
for (int N : Nvalues) {
const int Nfloat = N * (cplx ? 2 : 1);
int Nbytes = Nfloat * sizeof(float);
for (int n : kTransformSizes) {
const int n_float = n * (cplx ? 2 : 1);
int n_bytes = n_float * sizeof(float);
float wrk[2 * Nfloat + 15 * sizeof(float)];
sapi::v::Array<float> wrk_(wrk, 2 * Nfloat + 15 * sizeof(float));
std::vector<float> work(2 * n_float + 15, 0.0);
sapi::v::Array<float> work_array(&work[0], work.size());
float X[Nbytes], Y[Nbytes], Z[Nbytes];
sapi::v::Array<float> X_(X, Nbytes), Y_(Y, Nbytes), Z_(Z, Nbytes);
float x[n_bytes], y[n_bytes], z[n_bytes];
sapi::v::Array<float> x_array(x, n_bytes), y_array(y, n_bytes), z_array(z, n_bytes);
double t0, t1, flops;
double t0;
double t1;
double flops;
int max_iter = 5120000 / N * 4;
#ifdef __arm__
max_iter /= 4;
#endif
int iter, k;
int k;
int max_iter = 5120000 / n * 4;
for (k = 0; k < Nfloat; ++k) {
X[k] = 0;
for (k = 0; k < n_float; ++k) {
x[k] = 0;
}
// FFTPack benchmark
@ -130,50 +139,49 @@ int main(int argc, char* argv[]) {
if (max_iter_ == 0) max_iter_ = 1;
if (cplx) {
api.cffti(N, wrk_.PtrBoth()).IgnoreError();
api.cffti(n, work_array.PtrBoth()).IgnoreError();
} else {
api.rffti(N, wrk_.PtrBoth()).IgnoreError();
api.rffti(n, work_array.PtrBoth()).IgnoreError();
}
t0 = UclockSec();
for (iter = 0; iter < max_iter_; ++iter) {
for (int iter = 0; iter < max_iter_; ++iter) {
if (cplx) {
api.cfftf(N, X_.PtrBoth(), wrk_.PtrBoth()).IgnoreError();
api.cfftb(N, X_.PtrBoth(), wrk_.PtrBoth()).IgnoreError();
api.cfftf(n, x_array.PtrBoth(), work_array.PtrBoth()).IgnoreError();
api.cfftb(n, x_array.PtrBoth(), work_array.PtrBoth()).IgnoreError();
} else {
api.rfftf(N, X_.PtrBoth(), wrk_.PtrBoth()).IgnoreError();
api.rfftb(N, X_.PtrBoth(), wrk_.PtrBoth()).IgnoreError();
api.rfftf(n, x_array.PtrBoth(), work_array.PtrBoth()).IgnoreError();
api.rfftb(n, x_array.PtrBoth(), work_array.PtrBoth()).IgnoreError();
}
}
t1 = UclockSec();
flops =
(max_iter_ * 2) * ((cplx ? 5 : 2.5) * N * log((double)N) / M_LN2);
ShowOutput("FFTPack", N, cplx, flops, t0, t1, max_iter_);
(max_iter_ * 2) * ((cplx ? 5 : 2.5) * n * log((double)n) / M_LN2);
ShowOutput("FFTPack", n, cplx, flops, t0, t1, max_iter_);
}
// PFFFT benchmark
{
sapi::StatusOr<PFFFT_Setup*> s =
api.pffft_new_setup(N, cplx ? PFFFT_COMPLEX : PFFFT_REAL);
api.pffft_new_setup(n, cplx ? PFFFT_COMPLEX : PFFFT_REAL);
LOG(INFO) << "Setup status is: " << s.status().ToString().c_str()
<< "\n";
LOG(INFO) << "Setup status is: " << s.status().ToString();
if (!s.ok()) {
printf("Sandbox failed.\n");
return 1;
return EXIT_FAILURE;
}
sapi::v::RemotePtr s_reg(s.value());
t0 = UclockSec();
for (iter = 0; iter < max_iter; ++iter) {
api.pffft_transform(&s_reg, X_.PtrBoth(), Z_.PtrBoth(),
Y_.PtrBoth(), PFFFT_FORWARD)
for (int iter = 0; iter < max_iter; ++iter) {
api.pffft_transform(&s_reg, x_array.PtrBoth(), z_array.PtrBoth(),
y_array.PtrBoth(), PFFFT_FORWARD)
.IgnoreError();
api.pffft_transform(&s_reg, X_.PtrBoth(), Z_.PtrBoth(),
Y_.PtrBoth(), PFFFT_FORWARD)
api.pffft_transform(&s_reg, x_array.PtrBoth(), z_array.PtrBoth(),
y_array.PtrBoth(), PFFFT_FORWARD)
.IgnoreError();
}
@ -181,15 +189,15 @@ int main(int argc, char* argv[]) {
api.pffft_destroy_setup(&s_reg).IgnoreError();
flops =
(max_iter * 2) * ((cplx ? 5 : 2.5) * N * log((double)N) / M_LN2);
ShowOutput("PFFFT", N, cplx, flops, t0, t1, max_iter);
(max_iter * 2) * ((cplx ? 5 : 2.5) * n * log((double)n) / M_LN2);
ShowOutput("PFFFT", n, cplx, flops, t0, t1, max_iter);
LOG(INFO) << "N = " << N << " SUCCESSFULLY\n\n";
LOG(INFO) << "n = " << n << " SUCCESSFULLY";
}
}
cplx = !cplx;
} while (cplx);
return 0;
return EXIT_SUCCESS;
}