1 files changed, 485 insertions, 0 deletions
diff --git a/fpga/usrp2/models/CY7C1356C/cy1356.v b/fpga/usrp2/models/CY7C1356C/cy1356.v
new file mode 100644
index 000000000..9197eea6d
--- /dev/null
+++ b/fpga/usrp2/models/CY7C1356C/cy1356.v
@@ -0,0 +1,485 @@
+`define sb200  
+//************************************************************************
+//************************************************************************
+//** This model is the property of Cypress Semiconductor Corp and is    **
+//** protected by the US copyright laws, any unauthorized copying and   **
+//** distribution is prohibited. Cypress reserves the right to change   ** 
+//** any of the functional specifications without any prior notice.     ** 
+//** Cypress is not liable for any damages which may result from the    **
+//** use of this functional model.					**
+//**									**
+//** File Name	:   CY7C1356						**
+//**									**
+//** Revision	:   1.0 - 08/03/2004					**
+//**									**
+//** The timings are to be selected by the user depending upon the 	**
+//** frequency of operation from the datasheet.				**
+//**									**
+//** Model	:   CY7C1356C - NoBL Pipelined SRAM		**
+//** Queries	:   MPD Applications					**
+//** Website:    www.cypress.com/support              ** 		
+//************************************************************************
+//************************************************************************
+
+`timescale  1ns /  10ps
+
+//	NOTE :	Any setup/hold errors will force input signal to x state
+//		or if results indeterminant (write addr) core is reset x
+
+// define fixed values
+
+`define wordsize (18 -1)		//
+`define no_words (1048576  -1)		// 1M x 18 RAM
+
+module cy1356 ( d, clk, a, bws, we_b, adv_lb, ce1b, ce2, ce3b, oeb, cenb, mode);
+
+inout	[`wordsize:0] 	d;
+input 			clk, 		// clock input (R)
+			we_b, 		// byte write enable(L)
+			adv_lb, 	// burst(H)/load(L) address
+			ce1b, 		// chip enable(L)
+			ce2, 		// chip enable(H)
+			ce3b, 		// chip enable(L)
+			oeb, 		// async output enable(L)(read)
+			cenb,		// clock enable(L)
+			mode;		// interleave(H)/linear(L) burst
+input 	[1:0] 		bws;		// byte write select(L)
+input 	[18:0] 		a;		// address bus
+
+//	*** 	NOTE DEVICE OPERATES #0.01 AFTER CLOCK   	***
+//	*** THEREFORE DELAYS HAVE TO TAKE THIS INTO ACCOUNT	***
+
+
+//**********************************************************************
+//  Timings for 225MHz
+//**********************************************************************
+`ifdef sb225
+  `define teohz #2.8
+  `define teolz #0
+  `define tchz #2.8
+  `define tclz #1.25
+  
+  `define tco   #2.8
+  `define tdoh  #1.25
+  `define tas 1.4			
+  `define tah 0.4		
+`endif
+//***********************************************************************
+//  Timings for 200MHz
+//**********************************************************************
+`ifdef sb200
+  `define teohz #3.2
+  `define teolz #0
+  `define tchz #3.2
+  `define tclz #1.5
+  
+  `define tco   #3.2
+  `define tdoh  #1.5
+
+  `define tas 1.5			
+  `define tah 0.5		
+`endif
+//***********************************************************************
+
+//**********************************************************************
+//  This model is configured for 166 MHz Operation (CY7C1356-166). 
+//**********************************************************************
+`ifdef sb166
+  `define teohz #3.5
+  `define teolz #0
+  `define tchz #3.5
+  `define tclz #1.5
+  
+  `define tco   #3.5
+  `define tdoh  #1.5
+
+  `define tas 1.5			
+  `define tah 0.5		
+`endif
+
+reg 		notifier;	// error support reg's
+reg 		noti1_0;
+reg 		noti1_1;
+reg 		noti1_2;
+reg 		noti1_3;
+reg 		noti1_4;
+reg 		noti1_5;
+reg 		noti1_6;
+reg 	 	noti2;
+
+
+wire chipen;     	// combined chip enable (high for an active chip)
+
+reg  chipen_d;		// _d = delayed
+reg  chipen_o;		// _o = operational = delayed sig or _d sig
+
+wire writestate;   	// holds 1 if any of writebus is low
+reg  writestate_d;
+reg  writestate_o;
+
+wire loadcyc;        	// holds 1 for load cycles (setup and hold checks)
+wire writecyc;     	// holds 1 for write cycles (setup and hold checks)
+wire [1:0] bws;     	// holds the bws values
+
+wire [1:0] writebusb; 	// holds the "internal" bws bus based on we_b
+reg  [1:0] writebusb_d;
+reg  [1:0] writebusb_o;
+
+wire [2:0] operation;	// holds chipen, adv_ld and writestate
+reg  [2:0] operation_d;
+reg  [2:0] operation_o;
+
+wire [18:0] a;       	// address input bus
+reg  [18:0] a_d;
+reg  [18:0] a_o;
+
+reg  [`wordsize:0] do;      	// data  output reg
+reg  [`wordsize:0] di;      	// data   input bus
+reg  [`wordsize:0] dd;      	// data delayed bus
+
+wire tristate;		// tristate output (on a bytewise basis) when asserted
+reg  cetri;       	// register set by chip disable which sets the tristate 
+reg  oetri;    		// register set by oe which sets the tristate
+reg  enable;         	// register to make the ram enabled when equal to 1
+reg  [18:0] addreg;   	// register to hold the input address
+reg  [`wordsize:0] pipereg; 	// register for the output data
+
+reg  [`wordsize:0] mem [0:`no_words];	// RAM array
+
+reg  [`wordsize:0] writeword;	// temporary holding register for the write data
+reg  burstinit;    	// register to hold a[0] for burst type
+reg  [18:0] i;  	// temporary register used to write to all mem locs.
+reg  writetri;		// tristate
+reg  lw, bw;		// pipelined write functions
+reg  we_bl;
+
+
+wire [`wordsize:0]  d =  !tristate ?  do[`wordsize:0] : 18'bz ;	//  data bus
+
+assign chipen 		= (adv_lb == 1 ) ? chipen_d :
+                                ~ce1b & ce2 & ~ce3b ;
+
+assign writestate 	= ~& writebusb;
+
+assign operation 	= {chipen, adv_lb, writestate};
+
+assign writebusb[1:0] 	= (  we_b  ==0 & adv_lb ==0) ? bws[1:0]:
+                          (  we_b  ==1 & adv_lb ==0) ? 2'b11 :
+                          (  we_bl ==0 & adv_lb ==1) ? bws[1:0]:
+                          (  we_bl ==1 & adv_lb ==1) ? 2'b11 :
+                                                       2'bxx ;
+
+assign loadcyc 		= chipen & !cenb;
+
+assign writecyc 	= writestate_d & enable & ~cenb & chipen; // check
+
+assign tristate 	= cetri | writetri | oetri;
+
+pullup    (mode); 
+
+// formers for notices/errors etc
+//
+//$display("NOTICE      : xxx :");
+//$display("WARNING     : xxx :");
+//$display("ERROR   *** : xxx :");
+
+
+// initialize the output to be tri-state, ram to be disabled
+
+initial
+	begin
+// signals
+
+	  writetri 	= 0;
+	  cetri 	= 1;
+	  enable 	= 0;
+	  lw		= 0;
+	  bw		= 0;
+
+// error signals 
+
+	  notifier 	= 0;
+	  noti1_0	= 0;
+	  noti1_1	= 0;
+	  noti1_2	= 0;
+	  noti1_3	= 0;
+	  noti1_4	= 0;
+	  noti1_5	= 0;
+	  noti1_6	= 0;
+	  noti2		= 0;  
+
+end
+
+
+
+// asynchronous OE
+
+always @(oeb)
+begin
+  if (oeb == 1)
+    oetri <= `teohz 1;
+  else
+    oetri <= `teolz 0;
+end
+
+//	***	SETUP / HOLD VIOLATIONS		***
+
+always @(noti2)
+begin
+$display("NOTICE      : 020 : Data bus    corruption");
+    force d =18'bx;
+    #1;
+    release d;
+end
+
+always @(noti1_0)
+begin
+$display("NOTICE      : 010 : Byte write  corruption");
+    force bws = 2'bx;
+    #1;
+    release bws;
+end
+
+always @(noti1_1)
+begin
+$display("NOTICE      : 011 : Byte enable corruption");
+    force we_b = 1'bx;
+    #1;
+    release we_b;
+end
+
+always @(noti1_2)
+begin
+$display("NOTICE      : 012 : CE1B       corruption");
+    force ce1b =1'bx;
+    #1;
+    release ce1b;
+end
+
+always @(noti1_3)
+begin
+$display("NOTICE      : 013 : CE2       corruption");
+    force ce2 =1'bx;
+    #1;
+   release ce2;
+end
+
+always @(noti1_4)
+begin
+$display("NOTICE      : 014 : CE3B      corruption");
+    force ce3b =1'bx;
+    #1;
+    release ce3b;
+end
+
+always @(noti1_5)
+begin
+$display("NOTICE      : 015 : CENB      corruption");
+    force cenb =1'bx;
+    #1;
+    release cenb;
+end
+
+always @(noti1_6)
+begin
+$display("NOTICE      : 016 : ADV_LB   corruption");
+    force adv_lb = 1'bx;
+    #1;
+    release adv_lb;
+end
+
+// synchronous functions from clk edge
+
+always @(posedge clk)
+if (!cenb)
+begin
+#0.01;  
+  // latch conditions on adv_lb
+
+  if (adv_lb) 
+   we_bl 		<=	we_bl;
+  else
+   we_bl 		<=	we_b;
+
+  chipen_d		<=	chipen;
+  
+
+      chipen_o	 	<=	chipen;
+      writestate_o	<= 	writestate;
+      writestate_d	<=	writestate_o;  
+      writebusb_o	<=	writebusb;
+      writebusb_d	<=	writebusb_o;
+      operation_o	<=	operation;
+      a_o		<=	a;
+      a_d		<=	a_o;
+      di		 =	d;
+
+  // execute previously pipelined fns
+
+  if (lw) begin			
+		loadwrite;
+		lw =0;
+	  end
+
+  if (bw) begin
+		burstwrite;
+		bw =0;
+	  end
+
+  // decode input/piplined state
+
+    casex (operation_o)
+    3'b0??	: turnoff;
+    3'b101	: setlw;
+    3'b111	: setbw;
+    3'b100	: loadread;
+    3'b110	: burstread;
+    default : unknown; // output unknown values and display an error message
+  endcase
+
+   do <= `tco  pipereg;
+
+end
+
+//			***	task section	***
+
+task read;
+begin
+  if (enable) cetri <= `tclz 0;
+  writetri <= `tchz 0;
+  do <= `tdoh 18'hx;
+  pipereg = mem[addreg];
+end
+endtask
+
+task write;
+begin
+  if (enable) cetri <= `tclz 0;
+  writeword = mem[addreg];  // set up a word to hold the data for the current location
+  /* overwrite the current word for the bytes being written to */
+  if (!writebusb_d[1]) writeword[17:9]  = di[17:9];
+  if (!writebusb_d[0]) writeword[8:0]   = di[8:0];
+  writeword = writeword &  writeword; //convert z to x states
+  mem[addreg] = writeword; // store the new word into the memory location
+  //writetri <= `tchz 1;    // tristate the outputs
+end
+endtask
+
+task setlw;
+begin
+    lw =1;
+    writetri <= `tchz 1;    // tristate the outputs
+end
+endtask
+
+task setbw;
+begin
+    bw =1;
+    writetri <= `tchz 1;    // tristate the outputs
+end
+endtask
+
+task loadread;
+begin
+  burstinit = a_o[0];
+  addreg = a_o;
+  enable = 1;
+  read;
+end
+endtask
+
+task loadwrite;
+begin
+  burstinit = a_d[0];
+  addreg = a_d;
+  enable = 1;
+  write;
+end
+endtask
+
+task burstread;
+begin
+  burst;
+  read;
+end
+endtask
+
+task burstwrite;
+begin
+  burst;
+  write;
+end
+endtask
+
+task unknown;
+begin
+  do = 18'bx;
+  // $display ("Unknown function:  Operation = %b\n", operation);
+end
+endtask
+
+task turnoff;
+begin
+  enable = 0;
+  cetri <= `tchz 1;
+  pipereg = 18'h0;
+end
+endtask
+
+task burst;
+begin
+  if (burstinit == 0 || mode == 0)
+  begin
+    case (addreg[1:0])
+      2'b00:   addreg[1:0] = 2'b01;
+      2'b01:   addreg[1:0] = 2'b10;
+      2'b10:   addreg[1:0] = 2'b11;
+      2'b11:   addreg[1:0] = 2'b00;
+      default: addreg[1:0] = 2'bxx;
+    endcase
+  end
+  else
+  begin
+    case (addreg[1:0])
+      2'b00:   addreg[1:0] = 2'b11;
+      2'b01:   addreg[1:0] = 2'b00;
+      2'b10:   addreg[1:0] = 2'b01;
+      2'b11:   addreg[1:0] = 2'b10;
+      default: addreg[1:0] = 2'bxx;
+    endcase
+  end
+end
+endtask
+
+// IO checks
+
+specify
+// specify the setup and hold checks
+
+// notifier will wipe memory as result is indeterminent
+
+$setuphold(posedge clk &&& loadcyc, a, `tas, `tah, notifier);
+
+// noti1 should make ip = 'bx;
+
+$setuphold(posedge clk, bws,  `tas, `tah, noti1_0);
+
+$setuphold(posedge clk, we_b, `tas, `tah, noti1_1);
+$setuphold(posedge clk, ce1b, `tas, `tah, noti1_2);
+$setuphold(posedge clk,  ce2, `tas, `tah, noti1_3);
+$setuphold(posedge clk, ce3b, `tas, `tah, noti1_4);
+
+// noti2 should make d = 18'hxxxxx;
+
+$setuphold(posedge clk &&& writecyc, d, `tas, `tah, noti2);
+
+// add extra tests here.
+
+$setuphold(posedge clk,   cenb, `tas, `tah, noti1_5);
+$setuphold(posedge clk, adv_lb, `tas, `tah, noti1_6);
+
+endspecify
+
+endmodule
+
+