X-Git-Url: http://git.joshuawise.com/mandelfpga.git/blobdiff_plain/251788d85bd34ae72b677875e924d56768b409f7..79af494a1f40aff429c60355790bf6bb0c81c51e:/Main.v diff --git a/Main.v b/Main.v index 3dc546b..2ae7962 100644 --- a/Main.v +++ b/Main.v @@ -64,22 +64,23 @@ module NaiveMultiplier( input xsign, ysign, output reg [12:0] out, output reg sign, - output reg [1:0] ovf); + output reg ovf); always @(posedge clk) begin {ovf,out} <= (((y[12] ? (x ) : 0) + (y[11] ? (x >> 1) : 0) + - (y[10] ? (x >> 2) : 0) + - (y[9] ? (x >> 3) : 0)) + - ((y[8] ? (x >> 4) : 0) + - (y[7] ? (x >> 5) : 0) + - (y[6] ? (x >> 6) : 0)))+ + (y[10] ? (x >> 2) : 0)) + + (((y[9] ? (x >> 3) : 0) + + (y[8] ? (x >> 4) : 0))+ + ((y[7] ? (x >> 5) : 0) + + (y[6] ? (x >> 6) : 0))))+ + (((y[5] ? (x >> 7) : 0) + - (y[4] ? (x >> 8) : 0) + + (y[4] ? (x >> 8) : 0)+ (y[3] ? (x >> 9) : 0)) + - ((y[2] ? (x >> 10): 0) + + ((y[2] ? (x >> 10): 0) + (y[1] ? (x >> 11): 0) + (y[0] ? (x >> 12): 0))); sign <= xsign ^ ysign; @@ -93,12 +94,13 @@ module Multiplier( input xsign, ysign, output wire [12:0] out, output wire sign, - output wire [1:0] overflow); + output wire overflow); NaiveMultiplier nm(clk, x, y, xsign, ysign, out, sign, overflow); endmodule +// Yuq. module MandelUnit( input clk, input [12:0] x, y, @@ -115,7 +117,7 @@ module MandelUnit( wire [14:0] r2, i2, ri, diff; wire [15:0] twocdiff; wire r2sign, i2sign, risign, dsign; - wire [16:0] bigsum; + wire [15:0] bigsum; wire bigsum_ovf, rin_ovf, iin_ovf, throwaway; reg [12:0] xd, yd; @@ -125,12 +127,12 @@ module MandelUnit( assign ri[0] = 0; - Multiplier r2m(clk, r[12:0], r[12:0], rsign, rsign, r2[12:0], r2sign, r2[14:13]); - Multiplier i2m(clk, i[12:0], i[12:0], isign, isign, i2[12:0], i2sign, i2[14:13]); - Multiplier rim(clk, r[12:0], i[12:0], rsign, isign, ri[13:1], risign, {throwaway,ri[14]}); + Multiplier r2m(clk, r[12:0], r[12:0], rsign, rsign, r2[12:0], r2sign, r2[13]); + Multiplier i2m(clk, i[12:0], i[12:0], isign, isign, i2[12:0], i2sign, i2[13]); + Multiplier rim(clk, r[12:0], i[12:0], rsign, isign, ri[13:1], risign, ri[14]); assign bigsum = r2 + i2; - assign bigsum_ovf = bigsum[16] | bigsum[15] | bigsum[14]; + assign bigsum_ovf = bigsum[15] | bigsum[14]; assign rin_ovf = rd; assign iin_ovf = id; assign twocdiff = r2 - i2; @@ -210,7 +212,6 @@ module Mandelbrot( assign rxsign = nx[13]; assign ry = (ny[13] ? -ny[12:0] : ny[12:0]) << scale; assign rysign = ny[13]; - wire [14:0] mr[`MAXOUTN:0], mi[`MAXOUTN:0]; wire mrs[`MAXOUTN:0], mis[`MAXOUTN:0]; @@ -219,9 +220,9 @@ module Mandelbrot( wire xsprop[`MAXOUTN:0], ysprop[`MAXOUTN:0]; wire [7:0] curiter[`MAXOUTN:0]; - wire [14:0] initx, inity, initr, initi; - wire [7:0] initci, initb; - wire initxs, initys, initrs, initis; + reg [14:0] initx, inity, initr, initi; + reg [7:0] initci, initb; + reg initxs, initys, initrs, initis; // Values after the number of iterations denoted by the subscript. reg [14:0] stagex [2:1], stagey [2:1], stager [2:1], stagei [2:1]; @@ -230,42 +231,47 @@ module Mandelbrot( reg [2:0] state = 3'b001; // One-hot encoded state. - assign initx = state[0] ? rx : - state[1] ? stagex[1] : - stagex[2]; - assign inity = state[0] ? ry : - state[1] ? stagey[1] : - stagey[2]; - assign initr = state[0] ? rx : - state[1] ? stager[1] : - stager[2]; - assign initi = state[0] ? ry : - state[1] ? stagei[1] : - stagei[2]; - assign initxs = state[0] ? rxsign : - state[1] ? stagexs[1] : - stagexs[2]; - assign initys = state[0] ? rysign : - state[1] ? stageys[1] : - stageys[2]; - assign initrs = state[0] ? rxsign : - state[1] ? stagers[1] : - stagers[2]; - assign initis = state[0] ? rysign : - state[1] ? stageis[1] : - stageis[2]; - assign initb = state[0] ? 8'b11111111 : - state[1] ? stageb[1] : - stageb[2]; - assign initci = state[0] ? 8'b00000000 : - state[1] ? stageci[1] : - stageci[2]; + // States are advanced one from what they should be, so that they'll + // get there on the _next_ mclk. + always @(posedge mclk) + begin + initx <= (state[2]) ? rx : + (state[0]) ? stagex[1] : + (state[1]) ? stagex[2] : 0; + inity <= (state[2]) ? ry : + (state[0]) ? stagey[1] : + (state[1]) ? stagey[2] : 0; + initr <= (state[2]) ? rx : + (state[0]) ? stager[1] : + (state[1]) ? stager[2] : 0; + initi <= (state[2]) ? ry : + (state[0]) ? stagei[1] : + (state[1]) ? stagei[2] : 0; + initxs <= (state[2]) ? rxsign : + (state[0]) ? stagexs[1] : + (state[1]) ? stagexs[2] : 0; + initys <= (state[2]) ? rysign : + (state[0]) ? stageys[1] : + (state[1]) ? stageys[2] : 0; + initrs <= (state[2]) ? rxsign : + (state[0]) ? stagers[1] : + (state[1]) ? stagers[2] : 0; + initis <= (state[2]) ? rysign : + (state[0]) ? stageis[1] : + (state[1]) ? stageis[2] : 0; + initb <= (state[2]) ? 8'b11111111 : + (state[0]) ? stageb[1] : + (state[1]) ? stageb[2] : 0; + initci <= (state[2]) ? 8'b00000000 : + (state[0]) ? stageci[1] : + (state[1]) ? stageci[2] : 0; + end reg [7:0] out; // We detect when the state should be poked by a high negedge followed - // by a high posedge -- if tha thappens, then we're guaranteed that the - // state following the current state will be 100. + // by a high posedge -- if that happens, then we're guaranteed that the + // state following the current state will be 3'b100. reg lastneg; always @(negedge mclk) lastneg <= pixclk; @@ -275,7 +281,11 @@ module Mandelbrot( if (lastneg && pixclk) // If a pixclk has happened, the state should be reset. state <= 3'b100; else // Otherwise, just poke it forward. - state <= {state[1], state[0], state[2]}; + case(state) + 3'b001: state <= 3'b010; + 3'b010: state <= 3'b100; + 3'b100: state <= 3'b001; + endcase // Data output handling if (state[0]) begin @@ -386,28 +396,21 @@ module MandelTop( wire pixclk, mclk, gclk2, clk; wire dcm1ok, dcm2ok; - //assign dcmok = dcm1ok && dcm2ok; - - //IBUFG typeA(.O(clk), .I(gclk)); + assign dcmok = dcm1ok && dcm2ok; - //pixDCM dcm( // CLKIN is 50MHz xtal, CLKFX_OUT is 25MHz - // .CLKIN_IN(clk), - // .CLKFX_OUT(pixclk), - // .LOCKED_OUT(dcm1ok) - // ); + IBUFG typeA(.O(clk), .I(gclk)); - //mandelDCM dcm2( - // .CLKIN_IN(clk), - // .CLKFX_OUT(mclk), - // .LOCKED_OUT(dcm2ok) - // ); + pixDCM dcm( // CLKIN is 50MHz xtal, CLKFX_OUT is 25MHz + .CLKIN_IN(clk), + .CLKFX_OUT(pixclk), + .LOCKED_OUT(dcm1ok) + ); - mainDCM dcm ( - .U1_CLKIN_IN(gclk), - .U1_CLKDV_OUT(pixclk), - .U2_CLKFX_OUT(mclk), - .U2_LOCKED_OUT(dcmok) - ); + mandelDCM dcm2( + .CLKIN_IN(clk), + .CLKFX_OUT(mclk), + .LOCKED_OUT(dcm2ok) + ); wire border; wire [11:0] x, y;