Warp-SE/cpld/CNT.v
2024-10-16 05:59:54 -04:00

166 lines
4.4 KiB
Verilog

module CNT(
/* FSB clock and E clock inputs */
input CLK, input C8M, input E,
/* Power-on reset */
output reg nPOR,
/* Refresh request */
output reg RefReq, output reg RefUrg,
/* Reset, button */
output reg nRESout, input nRESin, input nIPL2,
/* Mac PDS bus master control outputs */
output reg AoutOE, output reg nBR_IOB,
/* QoS select inputs */
input nAS,
input ASrf,
input BACT,
input BACTr,
input IACK0CS,
input IACK1CS,
input VIACS,
input IWMCS,
input SCCCS,
input SCSICS,
input SndCSWR,
/* QoS settings inputs */
/*input SlowIACK,
input SlowVIA,
input SlowIWM,
input SlowSCC,
input SlowSCSI,
input SlowSnd,
input SlowClockGate,
input [3:0] SlowInterval, */
/* QoS outputs */
output reg QoSEN,
output reg MCKE);
/* E clock synchronization */
reg [1:0] Er; always @(posedge CLK) Er[1:0] <= { Er[0], E };
wire EFall = Er[1] && !Er[0];
/* C8M clock synchronization */
reg [3:0] C8Mr; always @(posedge CLK) C8Mr[3:0] <= { C8Mr[2:0], C8M };
wire C8MFall = C8Mr[1] && !C8Mr[0]; // C8M falling edge detect
/* Timer counts from 0 to 1010 (10) -- 11 states == 14.042 us
* Refresh timer sequence
* | Timer | RefReq | RefUrg |
* |---------|--------|-----------|
* | 0 0000 | 0 | 0 |
* | 1 0001 | 1 | 0 |
* | 2 0010 | 1 | 0 |
* | 3 0011 | 1 | 0 |
* | 4 0100 | 1 | 0 |
* | 5 0101 | 1 | 0 |
* | 6 0110 | 1 | 0 |
* | 7 0111 | 1 | 0 |
* | 8 1000 | 1 | 0 |
* | 9 1001 | 1 | 1 |
* | 10 1010 | 1 | 1 |
* back to timer==0
*/
reg [3:0] Timer = 0;
wire TimerTC = Timer==10;
reg TimerTick;
always @(posedge CLK) begin
if (EFall) begin
if (TimerTC) Timer <= 0;
else Timer <= Timer+1;
RefReq <= Timer!=10;
RefUrg <= Timer==8 || Timer==9;
end
end
always @(posedge CLK) TimerTick <= EFall && TimerTC;
/* QoS select latch */
reg SndCSWRr; always @(posedge CLK) SndCSWRr <= BACT && SndCSWR;
reg [3:0] QS;
always @(posedge CLK) begin
if (!nRESin) QS <= 3;
else if (BACT && IACK0CS) QS <= 15;
else if (BACT && VIACS) QS[1] <= 1;
else if (BACT && IWMCS) QS[1] <= 1;
else if (SndCSWRr) QS <= 15;
else if (QS!=0 && TimerTick) QS <= QS-1;
end
reg [1:0] QFS;
always @(posedge CLK) begin
if (!nRESin) QFS <= 0;
else if (BACT && IACK1CS) QFS <= 2;
else if (BACT && IACK0CS) QFS <= 0;
else if (BACT && VIACS) QFS <= 0;
else if (BACT && IWMCS) QFS <= 0;
else if (BACT && SCCCS) QFS <= 2;
else if (SndCSWRr) QFS <= 0;
else if (QFS!=0 && TimerTick) QFS <= QFS-1;
end
reg ClockGateEN;
always @(posedge CLK) begin
if (!nRESin) ClockGateEN <= 0;
else if (SndCSWRr) ClockGateEN <= 1;
else if (BACT && IACK1CS) ClockGateEN <= 0;
else if (BACT && IACK0CS) ClockGateEN <= 0;
else if (BACT && VIACS) ClockGateEN <= 0;
else if (BACT && IWMCS) ClockGateEN <= 0;
else if (BACT && SCCCS) ClockGateEN <= 0;
else if (BACT && SCSICS) ClockGateEN <= 0;
end
/* QoS enable control */
always @(posedge CLK) if (!BACT) QoSEN <= QS!=0 && QFS==0;
/* MC68k clock gating during QoS */
always @(negedge CLK, negedge nAS) begin
if (!nAS) MCKE <= 1;
else MCKE <= !(QoSEN && !ASrf && !C8MFall && ClockGateEN);
end
/* Long timer counts from 0 to 4095.
* 4096 states == 57.516 ms */
reg [11:0] LTimer;
wire LTimerTC = LTimer[11:0]==12'hFFF;
reg LTimerTick;
always @(posedge CLK) if (TimerTick) LTimer <= LTimer+1;
always @(posedge CLK) LTimerTick <= TimerTick && LTimerTC;
/* C8M duty cycle check and power-on reset */
always @(posedge CLK) begin
if (C8Mr[3:0]==4'b0000 || C8Mr[3:0]==4'b1111) nPOR <= 0;
else if (C8Mr[1:0]==2'b01) nPOR <= 1;
end
/* Startup sequence state control */
reg [1:0] IS = 0;
always @(posedge CLK) begin
if (!nPOR) IS <= 0;
else case (IS[1:0])
0: if (LTimerTick) IS <= 1;
1: if (LTimerTick) IS <= 2;
2: if (LTimerTick && nIPL2) IS[0] <= 1;
3: IS <= 3;
endcase
end
/* Startup sequence */
always @(posedge CLK) begin
case (IS[1:0])
0, 1: begin
AoutOE <= 0; // Tristate PDS address and control
nRESout <= 0; // Hold reset low
nBR_IOB <= 0; // Default to request bus
end 2: begin
AoutOE <= 0;
nRESout <= 0;
if (!nIPL2) nBR_IOB <= 1; // Disable bus request if NMI pressed
end 3: begin
AoutOE <= !nBR_IOB;
if (LTimerTick) nRESout <= 1; // Release reset after a while
end
endcase
end
endmodule