forked from Github_Repos/cvw
Ross Thompson
GitHub
commit
fef025cb91
@ -35,8 +35,8 @@ module shifter (
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input logic Right, Rotate, W64, SubArith, // Shift right, rotate, W64-type operation, arithmetic shift
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output logic [`XLEN-1:0] Y); // Shifted result
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logic [2*`XLEN-2:0] z, zshift; // Input to funnel shifter, shifted amount before truncated to 32 or 64 bits
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logic [`LOG_XLEN-1:0] amttrunc, Offset; // Shift amount adjusted for RV64, right-shift amount
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logic [2*`XLEN-2:0] Z, ZShift; // Input to funnel shifter, shifted amount before truncated to 32 or 64 bits
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logic [`LOG_XLEN-1:0] TruncAmt, Offset; // Shift amount adjusted for RV64, right-shift amount
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logic Sign; // Sign bit for sign extension
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assign Sign = A[`XLEN-1] & SubArith; // sign bit for sign extension
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@ -44,17 +44,17 @@ module shifter (
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if (`ZBB_SUPPORTED) begin: rotfunnel32 //rv32 shifter with rotates
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always_comb // funnel mux
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case({Right, Rotate})
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2'b00: z = {A[31:0], 31'b0};
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2'b01: z = {A[31:0], A[31:1]};
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2'b10: z = {{31{Sign}}, A[31:0]};
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2'b11: z = {A[30:0], A[31:0]};
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2'b00: Z = {A[31:0], 31'b0};
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2'b01: Z = {A[31:0], A[31:1]};
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2'b10: Z = {{31{Sign}}, A[31:0]};
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2'b11: Z = {A[30:0], A[31:0]};
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endcase
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end else begin: norotfunnel32 //rv32 shifter without rotates
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always_comb // funnel mux
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if (Right) z = {{31{Sign}}, A[31:0]};
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else z = {A[31:0], 31'b0};
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if (Right) Z = {{31{Sign}}, A[31:0]};
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else Z = {A[31:0], 31'b0};
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end
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assign amttrunc = Amt; // shift amount
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assign TruncAmt = Amt; // shift amount
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end else begin // rv64
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logic [`XLEN-1:0] A64;
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mux3 #(64) extendmux({{32{1'b0}}, A[31:0]}, {{32{A[31]}}, A[31:0]}, A, {~W64, SubArith}, A64); // bottom 32 bits are always A[31:0], so effectively a 32-bit upper mux
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@ -64,25 +64,25 @@ module shifter (
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mux2 #(`XLEN) rotmux(A, {A[31:0], A[31:0]}, W64, RotA); // W64 rotatons
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always_comb // funnel mux
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case ({Right, Rotate})
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2'b00: z = {A64[63:0],{63'b0}};
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2'b01: z = {RotA[63:0], RotA[63:1]};
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2'b10: z = {{63{Sign}}, A64[63:0]};
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2'b11: z = {RotA[62:0], RotA[63:0]};
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2'b00: Z = {A64[63:0],{63'b0}};
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2'b01: Z = {RotA[63:0], RotA[63:1]};
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2'b10: Z = {{63{Sign}}, A64[63:0]};
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2'b11: Z = {RotA[62:0], RotA[63:0]};
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endcase
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end else begin: norotfunnel64 // rv64 shifter without rotates
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always_comb // funnel mux
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if (Right) z = {{63{Sign}}, A64[63:0]};
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else z = {A64[63:0], {63'b0}};
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if (Right) Z = {{63{Sign}}, A64[63:0]};
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else Z = {A64[63:0], {63'b0}};
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end
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assign amttrunc = W64 ? {1'b0, Amt[4:0]} : Amt; // 32- or 64-bit shift
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assign TruncAmt = W64 ? {1'b0, Amt[4:0]} : Amt; // 32- or 64-bit shift
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end
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// Opposite offset for right shifts
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assign Offset = Right ? amttrunc : ~amttrunc;
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assign Offset = Right ? TruncAmt : ~TruncAmt;
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// Funnel operation
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assign zshift = z >> Offset;
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assign Y = zshift[`XLEN-1:0];
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assign ZShift = Z >> Offset;
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assign Y = ZShift[`XLEN-1:0];
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endmodule
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