function symmat(name,I,...) if not I then return symbol(name) end local r = {} for i = 0,I-1 do r[i] = symmat(name..tostring(i),...) end return r end function genkernel(NB, RM, RN, V,alpha) local terra vecload(data : &double, idx : int) var addr = &data[idx] return @addr:as(&vector(double,V)) end local terra vecstore(data : &double, idx : int, v : vector(double,V)) var addr = &data[idx] @addr:as(&vector(double,V)) = v end local A,B,C,mm,nn = symbol("A"),symbol("B"),symbol("C"),symbol("mn"),symbol("nn") local lda,ldb,ldc = NB,NB,NB local a,b,c,caddr = symmat("a",RM), symmat("b",RN), symmat("c",RM,RN), symmat("caddr",RM,RN) local k = symbol("k") local loadc,storec = terralib.newlist(),terralib.newlist() local VT = vector(double,V) local VP = &VT for m = 0, RM-1 do for n = 0, RN-1 do loadc:insert(quote var [caddr[m][n]] = C + (mm+m)*ldc + nn + n*V var [c[m][n]] = alpha * @VP([caddr[m][n]]) end) storec:insert(quote @VP([caddr[m][n]]) = [c[m][n]] end) end end local calcc = terralib.newlist() for n = 0, RN-1 do calcc:insert(quote var [b[n]] = @VP(&B[k*ldb + nn + n*V]) end) end for m = 0, RM-1 do calcc:insert(quote var [a[m]] = VT(A[(mm+m)*lda + k]) end) end for m = 0, RM-1 do for n = 0, RN-1 do calcc:insert(quote [c[m][n]] = [c[m][n]] + [a[m]] * [b[n]] end) end end return terra([A] : &double, [B] : &double, [C] : &double) for [mm] = 0, NB, RM do for [nn] = 0, NB,RN*V do [loadc]; for [k] = 0, NB do [calcc]; end [storec]; end end end end local NB = 48 local NB2 = 8 * NB local V = 4 l1dgemm0 = genkernel(NB,2,4,V,0) l1dgemm1 = genkernel(NB,2,4,V,1) terra min(a : int, b : int) return terralib.select(a < b, a, b) end local stdlib = terralib.includec("stdlib.h") local IO = terralib.includec("stdio.h") local VP = &vector(double,V) terra my_dgemm(gettime : {} -> double, M : int, N : int, K : int, alpha : double, A : &double, lda : int, B : &double, ldb : int, beta : double, C : &double, ldc : int) var AA = [&double](stdlib.malloc(sizeof(double)*M*K)) var BB = [&double](stdlib.malloc(sizeof(double)*K*N)) var CC = [&double](stdlib.malloc(sizeof(double)*M*N)) var i = 0 for mm = 0,M,NB do for kk = 0,K,NB do for m = mm,mm+NB do for k = kk,kk+NB,V do @VP(&AA[i]) = @VP(&A[m*lda + k]) i = i + V end end end end i = 0 for kk = 0,K,NB do for nn = 0,N,NB do for k = kk,kk+NB do for n = nn,nn+NB,V do @VP(&BB[i]) = @VP(&B[k*ldb + n]) i = i + V end end end end for mm = 0,M,NB2 do for nn = 0,N,NB2 do for kk = 0,K, NB2 do for m = mm,min(mm+NB2,M),NB do for n = nn,min(nn+NB2,N),NB do for k = kk,min(kk+NB2,K),NB do --IO.printf("%d %d starting at %d\n",m,k,m*lda + NB*k) if k == 0 then l1dgemm0(AA + (m*lda + NB*k), BB + (k*ldb + NB*n), CC + (m*ldc + NB*n)) else l1dgemm1(AA + (m*lda + NB*k), BB + (k*ldb + NB*n), CC + (m*ldc + NB*n)) end end end end end end end i = 0 for mm = 0,M,NB do for nn = 0,N,NB do for m = mm,mm+NB do for n = nn,nn+NB,V do @VP(&C[m*ldc + n]) = @VP(&CC[i]) i = i + V end end end end stdlib.free(AA) stdlib.free(BB) stdlib.free(CC) end terralib.saveobj("my_dgemm.o", { my_dgemm = my_dgemm })