Merge remote-tracking branch 'github/simd'

fft-org.c

@@ -126,6 +126,7 @@ int fix_fft_org(fixed fr[], fixed fi[], int m, int inverse)
                 wr >>= 1;
                 wi >>= 1;
             }
+
             for(i=m; i<n; i+=istep)
             {
 
@@ -148,6 +149,7 @@ int fix_fft_org(fixed fr[], fixed fi[], int m, int inverse)
                 fi[i] = qi + ti;
             }
         }
+
         --k;
         l = istep;
     }

fft.c

@@ -37,6 +37,14 @@
 
 #include <stdio.h>
 
+#define FFT_COMBINED_STORE(_fr, _fi, _i, _simd_r, _simd_i) \
+    asm ("{"                                  "\n" \
+         "    fft_simd_store %1, %0, %2"      "\n" \
+         "    nop"                            "\n" \
+         "    fft_simd_store %3, %0, %4"      "\n" \
+         "}" \
+         :: "r" (_i), "r" (_fr), "r" (_simd_r), "r" (_fi), "r" (_simd_i));
+
 /*
  *	fix_fft() - perform fast Fourier transform.
  *
@@ -112,26 +120,40 @@ int fix_fft(fixed fr[], fixed fi[], int m, int inverse)
         istep = l << 1;		//step width of current butterfly
 
         FFT_REG reg;
+        FFT_REG_SIMD simd_r, simd_i;
         fixed *reg_s = ((fixed*) &reg);
 
-        for(m=0; m<n; m+=istep)
+        if(l == 1)
         {
-        	for(i=m; i<m+l; ++i)
-            {
-                j = i + l;
+        	for(i=0; i<n; i+=8)
+        	{
+        		simd_r = FFT_simd_load(fr, i);
+        		simd_i = FFT_simd_load(fi, i);
+    			FFT_SIMD_FIRST(simd_r, simd_i, (xtbool) shift);
+    			FFT_COMBINED_STORE(fr, fi, i, simd_r, simd_i);
+        	}
+        }
+        else
+        {
+	        for(m=0; m<n; m+=istep)
+	        {
+	        	for(i=m; i<m+l; ++i)
+	            {
+	                j = i + l;
 
-                reg_s[3] = fr[i];
-                reg_s[2] = fr[j];
-                reg_s[1] = fi[i];
-                reg_s[0] = fi[j];
+	                reg_s[3] = fr[i];
+	                reg_s[2] = fr[j];
+	                reg_s[1] = fi[i];
+	                reg_s[0] = fi[j];
 
-                FFT_CALC(reg, i << k, (xtbool) shift, inverse);
+	                FFT_CALC(reg, i << k, (xtbool) shift, inverse);
 
-                fr[i] = reg_s[3];
-                fr[j] = reg_s[2];
-                fi[i] = reg_s[1];
-                fi[j] = reg_s[0];
-            }
+	                fr[i] = reg_s[3];
+	                fr[j] = reg_s[2];
+	                fi[i] = reg_s[1];
+	                fi[j] = reg_s[0];
+	            }
+        	}
         }
         --k;
         l = istep;

fft_inst.tie

@@ -132,6 +132,62 @@ table SIN_WAVE 16 1024 {
 
 regfile FFT_REG 64 2 fftv
 
+regfile FFT_REG_SIMD 128 2 fftsv
+
+function [31:0] FFT_VAR_SHIFT([31:0] data, [3:0] sh)
+{
+	assign FFT_VAR_SHIFT = TIEmux(sh,
+		data[31:0],
+		{data[30:0], 1'b0},
+		{data[29:0], 2'b0},
+		{data[28:0], 3'b0},
+		{data[27:0], 4'b0},
+		{data[26:0], 5'b0},
+		{data[25:0], 6'b0},
+		{data[24:0], 7'b0},
+		{data[23:0], 8'b0},
+		{data[22:0], 9'b0},
+		{data[21:0], 10'b0},
+		{data[20:0], 11'b0},
+		{data[19:0], 12'b0},
+		{data[18:0], 13'b0},
+		{data[17:0], 14'b0},
+		{data[16:0], 15'b0}
+	);
+}
+
+operation FFT_SIMD_LOAD {in AR *base, in AR offset, out FFT_REG_SIMD data} {out VAddr, in MemDataIn128}
+{
+	assign VAddr = TIEadd(base, {offset[30:0], 1'b0}, 1'b0);
+
+	wire [15:0] o1 = MemDataIn128[15:0];
+	wire [15:0] o2 = MemDataIn128[31:16];
+	wire [15:0] o3 = MemDataIn128[47:32];
+	wire [15:0] o4 = MemDataIn128[63:48];
+	wire [15:0] o5 = MemDataIn128[79:64];
+	wire [15:0] o6 = MemDataIn128[95:80];
+	wire [15:0] o7 = MemDataIn128[111:96];
+	wire [15:0] o8 = MemDataIn128[127:112];
+
+	assign data = {o1, o2, o3, o4, o5, o6, o7, o8 };
+}
+
+operation FFT_SIMD_STORE {in AR *base, in AR offset, in FFT_REG_SIMD data} {out VAddr, out MemDataOut128}
+{
+	assign VAddr = TIEadd(base, {offset[30:0], 1'b0}, 1'b0);
+
+	wire [15:0] o1 = data[15:0];
+	wire [15:0] o2 = data[31:16];
+	wire [15:0] o3 = data[47:32];
+	wire [15:0] o4 = data[63:48];
+	wire [15:0] o5 = data[79:64];
+	wire [15:0] o6 = data[95:80];
+	wire [15:0] o7 = data[111:96];
+	wire [15:0] o8 = data[127:112];
+
+	assign MemDataOut128 = {o1, o2, o3, o4, o5, o6, o7, o8 };
+}
+
 operation FFT_SHIFT_CHECK {in AR *base, in AR offset, out AR needs_shift} {out VAddr, in MemDataIn128}
 {
 	assign VAddr = TIEadd(base, offset[31:1], 1'b0);
@@ -243,59 +299,21 @@ operation FFT_CALC {inout FFT_REG data, in AR i, in BR shift, in BR inverse} {}
 	assign data = FFT_BUTTERFLY(data, wr, wi, shift);
 }
 
-////////////////////////////////////////////////////////////////////////////
-//
-// Generated by XPRES v4.0.4
-// Sat Mar 07 17:29:10 2015
-//
-// Register Files
-//   AR (a): 16 entries, 32 bits per entry, ports 3r / 2w
-//   vec (v): 16 entries, 160 bits per entry, ports 3r / 1w
-//   valign (u): 4 entries, 128 bits per entry, ports 2r / 1w
-//   sel (s): 8 entries, 32 bits per entry, ports 2r / 1w
-//   FFT_reg (fftv): 2 entries, 64 bits per entry, ports 1r / 1w
-// 
-// FLIX Formats
-//   x24: size 24 bits, 1 slot
-//     slot Inst: size 24 bits
-//       opcodes { }
-//   x64: size 64 bits, 3 slots
-//     slot vsLDST: size 24 bits
-//       opcodes { }
-//     slot vsMAC: size 18 bits
-//       opcodes { }
-//     slot vsALU: size 18 bits
-//       opcodes { }
-//   flix64_0: size 64 bits, 2 slots
-//     slot flix64_0_slot0: size 24 bits
-//       opcodes { L16SI NOP ld.FFT_reg mv.FFT_reg st.FFT_reg }
-//     slot flix64_0_slot1: size 10 bits
-//       opcodes { MOV.N NOP }
-// 
-// This TIE requires the following configuration settings:
-//
-//	 Required Endian: Little
-//	 Required Instruction Width: 64 bits
-//	 Minimum Data-Memory Width: 128 bits
-//	 Required Load/Store Units: 1
-//	 Requires Byte Enables: Yes
-//	 Requires Booleans: No
-//	 Pipeline Length: 5 stages
-//
-// This TIE was generated on a processor configuration with the
-// following ISA instruction options enabled:
-//
-//	 CLAMPS
-//	 MUL16
-//	 NSA/NSAU
-//	 MIN/MAX and MINU/MAXU
-//	 Sign Extend to 32 Bits
-//	 Enable Density Instructions
-//	 Enable Boolean Registers
-//	 Zero Overhead Loop Instructions
-//	 Vectra LX DSP Coprocessor Instruction Family
-//
-////////////////////////////////////////////////////////////////////////////
+// 4 butterflies at once
+operation FFT_SIMD_FIRST {inout FFT_REG_SIMD fr, inout FFT_REG_SIMD fi, in BR shift} {}
+{
+
+	wire [15:0] wr = TIEmux(shift, 16'h7fff, 16'h3fff);
+	wire [15:0] wi = 16'b0;
+
+	wire [63:0] res1 = FFT_butterfly({fr[127:96], fi[127:96]}, wr, wi, shift);
+	wire [63:0] res2 = FFT_butterfly({fr[95:64],  fi[95:64]},  wr, wi, shift);
+	wire [63:0] res3 = FFT_butterfly({fr[63:32],  fi[63:32]},  wr, wi, shift);
+	wire [63:0] res4 = FFT_butterfly({fr[31:0],   fi[31:0]},   wr, wi, shift);
+
+	assign fr = { res1[63:32], res2[63:32], res3[63:32], res4[63:32] };
+	assign fi = { res1[31:0],  res2[31:0],  res3[31:0],  res4[31:0] };
+}
 
 
 //--------------------------------------------------------------------------
@@ -314,10 +332,9 @@ immediate_range LD.FFT_REG_immed2 -32 24 8
 // flix64_0, format width 64 bits, 2 slots
 format flix64_0 64 { flix64_0_slot0, flix64_0_slot1, flix64_0_slot2 }
 
-//Full slots:
-slot_opcodes flix64_0_slot0 { MOVI, J, ADDX2, L16SI, S16I, FFT_BIT_REVERSE, S32I, L32I, FFT_SHIFT_CHECK, OR, NOP, ADD, FFT_CALC }
+slot_opcodes flix64_0_slot0 { MOVI, J, ADDX2, L16SI, S16I, FFT_BIT_REVERSE, S32I, L32I, FFT_SHIFT_CHECK, OR, NOP, ADD, FFT_CALC, FFT_SIMD_LOAD, FFT_SIMD_STORE }
 slot_opcodes flix64_0_slot1 { SSL, SLL, MOVI, ADDX2, NOP, ADDI.N, ANDBC, ADD, MOV.N, J }
-slot_opcodes flix64_0_slot2 { S32I, ADDI.N, L32I, L16SI, ADDX2, NOP, FFT_SHIFT_CHECK, J, MOVI, SSL, MOV.N, S16I }
+slot_opcodes flix64_0_slot2 { S32I, ADDI.N, L32I, L16SI, ADDX2, NOP, FFT_SHIFT_CHECK, J, MOVI, SSL, MOV.N, S16I, FFT_SIMD_LOAD, FFT_SIMD_STORE }
 
 //--------------------------------------------------------------------------
 
@@ -328,3 +345,4 @@ slot_opcodes flix64_0_slot2 { S32I, ADDI.N, L32I, L16SI, ADDX2, NOP, FFT_SHIFT_C
 //--------------------------------------------------------------------------
 
 ctype FFT_REG 64 64 FFT_REG default
+ctype FFT_REG_SIMD 128 128 FFT_REG_SIMD default