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Add support for verifying Enzyme Gradients with Clad Gradients #488
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This PR fails when I attempt to differentiate multiple functions with enzyme and verify it with clad. Then clad outputs the wrong gradients in some runs of the compiled code but not in others. double f1(double arr[2]) { return arr[0] * arr[1]; }
double f2(double x, double y, double z){
return x * y * z;
}
int main(){
auto f1_grad = clad::gradient<clad::opts::use_enzyme>(f1);
double f1_v[2] = {3, 4};
double f1_g[2] = {0};
f1_grad.execute(f1_v, f1_g);
printf("d_x = %.2f, d_y = %.2f\n", f1_g[0], f1_g[1]);
auto f2_grad=clad::gradient<clad::opts::use_enzyme>(f2);
double f2_res[3];
double f2_x=3,f2_y=4,f2_z=5;
f2_grad.execute(f2_x,f2_y,f2_z,&f2_res[0],&f2_res[1],&f2_res[2]);
} If each function is individually differentiated and verified(in different files), this error does not occur. Only when they are jointly differentiated the error occurs. void f1_grad(double arr[2], clad::array_ref<double> _d_arr) {
double _t0;
double _t1;
_t1 = arr[0];
_t0 = arr[1];
double f1_return = _t1 * _t0;
goto _label0;
_label0:
{
double _r0 = 1 * _t0;
_d_arr[0] += _r0;
double _r1 = _t1 * 1;
_d_arr[1] += _r1;
}
}
void f1_grad_enzyme(double arr[2], clad::array_ref<double> _d_arr) {
double *d_arr = _d_arr.ptr();
__enzyme_autodiff_f1(f1, arr, d_arr);
//Verification part below
double cladResult1[2];
f1_grad(arr, cladResult1);
EssentiallyEqualArrays(cladResult1, _d_arr.ptr(), 2UL);
}
void f2_grad(double x, double y, double z, clad::array_ref<double> _d_x, clad::array_ref<double> _d_y, clad::array_ref<double> _d_z) {
double _t0;
double _t1;
double _t2;
double _t3;
_t2 = x;
_t1 = y;
_t3 = _t2 * _t1;
_t0 = z;
double f2_return = _t3 * _t0;
goto _label0;
_label0:
{
double _r0 = 1 * _t0;
double _r1 = _r0 * _t1;
* _d_x += _r1;
double _r2 = _t2 * _r0;
* _d_y += _r2;
double _r3 = _t3 * 1;
* _d_z += _r3;
}
}
void f2_grad_enzyme(double x, double y, double z, clad::array_ref<double> _d_x, clad::array_ref<double> _d_y, clad::array_ref<double> _d_z) {
clad::EnzymeGradient<3> grad = __enzyme_autodiff_f2(f2, x, y, z);
* _d_x = grad.d_arr[0U];
* _d_y = grad.d_arr[1U];
* _d_z = grad.d_arr[2U];
//Verification part below
double cladResult1;
double cladResult2;
double cladResult3;
f2_grad(x, y, z, &cladResult1, &cladResult2, &cladResult3);
EssentiallyEqual(cladResult1, * _d_x);
EssentiallyEqual(cladResult2, * _d_y);
EssentiallyEqual(cladResult3, * _d_z);
} |
cc @vgvassilev @parth-07 for review and some help |
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The above problem has been fixed. It was simply that I was not initializing declared variables in some places |
Codecov Report
@@ Coverage Diff @@
## master #488 +/- ##
==========================================
+ Coverage 92.56% 92.67% +0.10%
==========================================
Files 37 37
Lines 5528 5610 +82
==========================================
+ Hits 5117 5199 +82
Misses 411 411
|
This commit generates code that will verify the results of Enzyme Gradients with Clad Gradients. For example, if previously the following code was generated for differentiating with enzyme for a function: ```cpp void f1_grad_enzyme(double arr[2], clad::array_ref<double> _d_arr) { double *d_arr = _d_arr.ptr(); __enzyme_autodiff_f1(f1, arr, d_arr); } ``` The above code will be appended with checks to verify the calculated gradients. Thus the newly generated code would be: ```cpp void f1_grad_enzyme(double arr[2], clad::array_ref<double> _d_arr) { double *d_arr = _d_arr.ptr(); __enzyme_autodiff_f1(f1, arr, d_arr); double cladResult1[2]; f1_grad(arr, cladResult1); EssentiallyEqualArrays(cladResult1, _d_arr.ptr(), 2UL); } ``` `EssentiallyEqualArrays` and `EssentiallyEqual` are functions defined in Differentiator.h Only functions with primitive type and ConstantArray type parameters can be verified in this manner. To trigger this verification one must append the following flag to clang while compiling the function to be generated: `-Xclang -plugin-arg-clad -Xclang -fcheck-enzyme-with-clad`
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@@ -450,6 +450,22 @@ namespace clad { | |||
code); | |||
} | |||
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void EssentiallyEqual(double a, double b) { | |||
// FIXME: We should select epsilon value in a more robust way. |
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@grimmmyshini, can you take a look?
bool ans = std::fabs(a - b) <= | ||
((std::fabs(a > b) ? std::fabs(b) : std::fabs(a)) * epsilon); | ||
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assert(ans && "Clad Gradient is not equal to Enzyme Gradient"); |
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Instead of an assert, can we give a non-fatal error here?
@@ -413,6 +417,16 @@ namespace clad { | |||
else | |||
DifferentiateWithEnzyme(); | |||
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if (use_enzyme && checkEnzymeWithClad) { | |||
DiffRequest newRequest = const_cast<DiffRequest&>(request); |
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Why do you need const_cast
here?
auto paramType = paramsRef[i]->getOriginalType(); | ||
llvm::SmallVector<Expr*, 2> equalityCheckArguments; | ||
equalityCheckArguments.push_back(BuildDeclRef(cladResultDecls[i])); | ||
if (paramType->isFloatingType()) { |
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What if paramType
is neither floating type nor an array type?
} else { | ||
resultVar = BuildVarDecl(paramType, finalVarName, nullptr, true); | ||
} | ||
addToCurrentBlock(BuildDeclStmt(resultVar), direction::forward); |
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We can move this statement outside the if-else chain.
} | ||
addToCurrentBlock(BuildDeclStmt(resultVar), direction::forward); | ||
cladGradArgs.push_back(BuildOp(UO_AddrOf, BuildDeclRef(resultVar))); | ||
cladResultDecls.push_back(resultVar); |
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We can move this outside if-else chain as well.
BuildDeclRef(paramsRef[i + numParams]), "ptr", {})); | ||
ConstantArrayType* t = dyn_cast<ConstantArrayType>( | ||
const_cast<Type*>(paramType.getTypePtr())); | ||
int sizeOfArray = (int)(t->getSize().roundToDouble(false)); |
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Why do you need C-style cast here?
// REQUIRES: Enzyme | ||
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#include "clad/Differentiator/Differentiator.h" | ||
|
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Can you please add a test containing nested function calls?
This commit generates code that will verify the results of Enzyme Gradients with Clad Gradients.
For example, if previously the following code was generated for differentiating with enzyme for a function:
The above code will be appended with checks to verify the calculated gradients. Thus the newly generated code would be:
EssentiallyEqualArrays
andEssentiallyEqual
are functions defined in Differentiator.hOnly functions with primitive type and ConstantArray type parameters can be verified in this manner.
To trigger this verification one must append the following flag to clang while compiling the function to be generated:
-Xclang -plugin-arg-clad -Xclang -fcheck-enzyme-with-clad