RAM2E/CPLD/UFM-MAX.v

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2023-12-29 04:12:12 +00:00
module RAM2E_UFM(C14M, S, FS, CS, Ready,
RWSel, D,
RWMask, LEDEN,
CmdRWMaskSet, CmdLEDSet,
CmdSetRWBankFFChip);
input C14M;
input [3:0] S;
input [15:0] FS;
input [2:0] CS;
2023-12-29 04:12:12 +00:00
input Ready;
input RWSel;
input [7:0] D;
output reg [7:0] RWMask;
output reg LEDEN;
input CmdRWMaskSet;
input CmdLEDSet;
output reg CmdSetRWBankFFChip;
/* RAMWorks register control - Altera MAX */
reg CmdBitbangMAX = 0; // Set by user command. Loads UFM outputs next RWSel
reg CmdPrgmMAX = 0; // Set by user command. Programs UFM
reg CmdEraseMAX = 0; // Set by user command. Erases UFM
always @(posedge C14M) begin
if (S==4'hC && RWSel) begin
if (CS==3'h6) begin // Recognize and submit command in CS6
// Chip detection commands
CmdSetRWBankFFChip <= D[7:0]==8'hFF; // MAX
//CmdSetRWBankFFChip <= D[7:0]==8'hFE; // SPI
//CmdSetRWBankFFChip <= D[7:0]==8'hFD; // MachXO2
// Altera MAX II/V commands
CmdBitbangMAX <= D[7:0]==8'hEA;
if (!CmdEraseMAX && !CmdPrgmMAX) begin
if (D[7:0]==8'hEE) CmdEraseMAX <= 1;
if (D[7:0]==8'hEF) CmdPrgmMAX <= 1;
end
// SPI commands
//CmdBitbangSPI <= D[7:0]==8'hEB;
// MachXO2 commands
//CmdBitbangMXO2 <= D[7:0]==8'hEC;
//CmdExecMXO2 <= D[7:0]==8'hED;
end else begin // Reset command triggers
CmdSetRWBankFFChip <= 0;
CmdBitbangMAX <= 0;
end
end
end
/* UFM Interface */
reg [15:8] UFMD = 0; // *Parallel* UFM data register
reg ARCLK = 0; // UFM address register clock
// UFM address register data input tied to 0
reg ARShift = 0; // 1 to Shift UFM address in, 0 to increment
reg DRCLK = 0; // UFM data register clock
reg DRDIn = 0; // UFM data register input
reg DRShift = 0; // 1 to shift UFM out, 0 to load from current address
reg UFMErase = 0; // Rising edge starts erase. UFM+RTP must not be busy
reg UFMProgram = 0; // Rising edge starts program. UFM+RTP must not be busy
wire UFMBusy; // 1 if UFM is doing user operation. Asynchronous
wire RTPBusy; // 1 if real-time programming in progress. Asynchronous
wire DRDOut; // UFM data output
// UFM oscillator always enabled
wire UFMOsc; // UFM oscillator output (3.3-5.5 MHz)
UFM UFM_inst ( // UFM IP block (for Altera MAX II and MAX V)
.arclk (ARCLK),
.ardin (1'b0),
.arshft (ARShift),
.drclk (DRCLK),
.drdin (DRDIn),
.drshft (DRShift),
.erase (UFMErase),
.oscena (1'b1),
.program (UFMProgram),
.busy (UFMBusy),
.drdout (DRDOut),
.osc (UFMOsc),
.rtpbusy (RTPBusy));
reg UFMRTPBusy = 0;
always @(posedge C14M) UFMRTPBusy <= UFMBusy || RTPBusy;
reg UFMInitDone = 0; // 1 if UFM initialization finished
reg UFMReqErase = 0; // 1 if UFM requires erase
reg DRCLKPulse = 0; // Set by user command. Causes DRCLK pulse next C14M
/* UFM control */
reg UFMProgStart;
always @(posedge C14M) begin
if (S==4'h0) begin
if ((FS[15:13]==3'b101) || (FS[15:13]==3'b111 && UFMReqErase)) begin
// In states AXXX-BXXX and also EXXX-FXXX if erase/wrap req'd
// shift in 0's to address register
ARCLK <= FS[0]; // Clock address register
DRCLK <= 1'b0; // Don't clock data register
ARShift <= 1'b1; // Shift address registers
DRDIn <= 1'b0; // Don't care DRDIn
DRShift <= 1'b0; // Don't care DRDShift
end else if (!UFMInitDone && FS[15:13]==3'b110 && FS[4:1]==4'h4) begin
// In states CXXX-DXXX (substep 4)
// Xfer to data reg (repeat 256x 1x)
ARCLK <= 1'b0; // Don't clock address register
DRCLK <= FS[0]; // Clock data register
ARShift <= 1'b0; // Don't care ARShift
DRDIn <= 1'b0; // Don't care DRDIn
DRShift <= 1'b0; // Don't care DRShift
end else if (!UFMInitDone && FS[15:13]==3'b110 && (FS[4:1]==4'h7 || FS[4]==1'b1)) begin
// In states CXXX-DXXX (substeps 8-F)
// Save UFM D15-8, shift out D14-7 (repeat 256x 8x)
DRCLK <= FS[0]; // Clock data register
ARShift <= 1'b0; // ARShift is 0 because we want to increment
DRDIn <= 1'b0; // Don't care what to shift into data register
DRShift <= 1'b1; // Shift data register
// Shift into UFMD
if (FS[0]) UFMD[15:8] <= {UFMD[14:8], DRDOut};
// Compare and store mask
if (FS[4:1]==4'hF) begin
ARCLK <= FS[0]; // Clock address register to increment
// If byte is erased (0xFF, i.e. all 1's, is erased)...
if (UFMD[15:8]==8'hFF && DRDOut==1'b1) begin
// Current UFM address is where we want to store
UFMInitDone <= 1'b1; // Quit iterating
// Otherwise byte is valid setting (i.e. some bit is 0)...
end else begin
// Set RWMask, but if saved mask is 0x80, store ~0xFF
if (UFMD[15:8]==8'b10000000) begin
RWMask[7:0] <= {1'b1, ~7'h7F};
end else RWMask[7:0] <= {UFMD[15], ~UFMD[14:8]};
// Set LED setting
LEDEN <= DRDOut ^ UFMD[15];
// If last byte in sector...
if (FS[12:5]==8'hFF) begin
UFMReqErase <= 1'b1; // Mark need to erase
end
end
end else ARCLK <= 1'b0; // Don't clock address register
end else begin
ARCLK <= 1'b0;
DRCLK <= 1'b0;
ARShift <= 1'b0;
DRDIn <= 1'b0;
DRShift <= 1'b0;
end
// Don't erase or program UFM during initialization
UFMErase <= 1'b0;
UFMProgram <= 1'b0;
// Keep DRCLK pulse control disabled during init
DRCLKPulse <= 1'b0;
// Reset UFMProgStart
UFMProgStart <= 1'b0;
end else begin
// Can only shift UFM data register now
ARCLK <= 1'b0;
ARShift <= 1'b0;
DRShift <= 1'b1;
// UFM bitbang control
if (CmdBitbangMAX && RWSel && S==4'hC) begin
DRDIn <= D[6];
DRCLKPulse <= D[7];
DRCLK <= 1'b0;
end else begin
DRCLKPulse <= 1'b0;
DRCLK <= DRCLKPulse;
end
// Volatile settings command execution
if (RWSel && S==4'hC) begin
// LED control
if (CmdLEDSet) LEDEN <= D[0];
// Set capacity mask
if (CmdRWMaskSet) RWMask[7:0] <= {D[7], ~D[6:0]};
end
// UFM programming sequence
if (S==4'h1) begin
if (!UFMProgStart && !UFMRTPBusy) begin
if (CmdPrgmMAX) begin
UFMErase <= UFMReqErase;
UFMProgStart <= 1;
end else if (CmdEraseMAX) UFMErase <= 1;
end else if (UFMProgStart && !UFMRTPBusy) begin
UFMErase <= 0;
if (!UFMErase) UFMProgram <= 1;
end
end
end
end
endmodule