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authorJosh Blum <josh@joshknows.com>2010-11-23 09:57:33 -0800
committerJosh Blum <josh@joshknows.com>2010-11-23 09:57:33 -0800
commitd35b7327710f08f96f2cfb93bcc28f14515ea9bb (patch)
tree0cfe31630905570c776a45746fcb3e2011d3dabd /fpga/usrp2/models
parent6741de7b4545bb33d22cc6508e121023dd1a7a8c (diff)
parent768af46dc01d036999cb60ff16df4215d014c906 (diff)
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Merge branch 'flow_ctrl' into next
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-rwxr-xr-xfpga/usrp2/models/idt71v65603s150.v301
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diff --git a/fpga/usrp2/models/idt71v65603s150.v b/fpga/usrp2/models/idt71v65603s150.v
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+/*******************************************************************************
+ *
+ * File Name : idt71v65603s150.v
+ * Product : IDT71V65603
+ * Function : 256K x 36 pipeline ZBT Static RAM
+ * Simulation Tool/Version : Verilog-XL 2.5
+ * Date : 07/19/00
+ *
+ * Copyright 1999 Integrated Device Technology, Inc.
+ *
+ * Revision Notes: 07/19/00 Rev00
+ *
+ ******************************************************************************/
+/*******************************************************************************
+ * Module Name: idt71v65603s150
+ *
+ * Notes : This model is believed to be functionally
+ * accurate. Please direct any inquiries to
+ * IDT SRAM Applications at: sramhelp@idt.com
+ *
+ *******************************************************************************/
+
+ /***************************************************************
+ *
+ * Integrated Device Technology, Inc. ("IDT") hereby grants the
+ * user of this Verilog/VCS model a non-exclusive, nontransferable
+ * license to use this Verilog/VCS model under the following terms.
+ * The user is granted this license only to use the Verilog/VCS
+ * model and is not granted rights to sell, copy (except as needed
+ * to run the IBIS model), rent, lease or sub-license the Verilog/VCS
+ * model in whole or in part, or in modified form to anyone. The User
+ * may modify the Verilog/VCS model to suit its specific applications,
+ * but rights to derivative works and such modifications shall belong
+ * to IDT.
+ *
+ * This Verilog/VCS model is provided on an "AS IS" basis and
+ * IDT makes absolutely no warranty with respect to the information
+ * contained herein. IDT DISCLAIMS AND CUSTOMER WAIVES ALL
+ * WARRANTIES, EXPRESS AND IMPLIED, INCLUDING WARRANTIES OF
+ * MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE. THE
+ * ENTIRE RISK AS TO QUALITY AND PERFORMANCE IS WITH THE
+ * USER ACCORDINGLY, IN NO EVENT SHALL IDT BE LIABLE
+ * FOR ANY DIRECT OR INDIRECT DAMAGES, WHETHER IN CONTRACT OR
+ * TORT, INCLUDING ANY LOST PROFITS OR OTHER INCIDENTAL,
+ * CONSEQUENTIAL, EXEMPLARY, OR PUNITIVE DAMAGES ARISING OUT OF
+ * THE USE OR APPLICATION OF THE VERILOG/VCS model. Further,
+ * IDT reserves the right to make changes without notice to any
+ * product herein to improve reliability, function, or design.
+ * IDT does not convey any license under patent rights or
+ * any other intellectual property rights, including those of
+ * third parties. IDT is not obligated to provide maintenance
+ * or support for the licensed Verilog/VCS model.
+ *
+ ***************************************************************/
+
+ `timescale 1ns/100ps
+
+module idt71v65603s150 (A,
+ adv_ld_, // advance (high) / load (low)
+ bw1_, bw2_, bw3_, bw4_, // byte write enables (low)
+ ce1_, ce2, ce2_, // chip enables
+ cen_, // clock enable (low)
+ clk, // clock
+ IO, IOP, // data bus
+ lbo_, // linear burst order (low)
+ oe_, // output enable (low)
+ r_w_); // read (high) / write (low)
+
+initial
+begin
+ $write("\n********************************************************\n");
+ $write(" idt71v65603s150, 256K x 36 Pipelined burst ZBT SRAM \n");
+ $write(" Rev: 00 July 2000 \n");
+ $write(" copyright 1997,1998,1999,2000 by IDT, Inc. \n");
+ $write("********************************************************\n\n");
+end
+
+input [17:0] A;
+inout [31:0] IO;
+inout [4:1] IOP;
+input adv_ld_, bw1_, bw2_, bw3_, bw4_, ce1_, ce2, ce2_,
+ cen_, clk, lbo_, oe_, r_w_;
+
+
+//internal registers for data, address, etc
+reg [8:0] mem1[0:262143]; //memory array
+reg [8:0] mem2[0:262143]; //memory array
+reg [8:0] mem3[0:262143]; //memory array
+reg [8:0] mem4[0:262143]; //memory array
+
+reg [35:0] dout;
+reg [17:0] addr_a,
+ addr_b;
+reg wren_a, wren_b;
+reg cs_a, cs_b;
+reg bw_a1, bw_b1;
+reg bw_a2, bw_b2;
+reg bw_a3, bw_b3;
+reg bw_a4, bw_b4;
+reg [1:0] brst_cnt;
+
+wire[35:0] data_out;
+wire doe;
+wire cs = (~ce1_ & ce2 & ~ce2_);
+wire baddr0, baddr1;
+
+
+parameter regdelay = 0.2;
+parameter outdly = 0.2;
+
+specify
+specparam
+//Clock Parameters
+ tCYC = 6.7, //clock cycle time
+ tCH = 2.0, //clock high time
+ tCL = 2.0, //clock low time
+
+//Output Parameters
+ tCD = 3.8, //clk to data valid
+ tCLZ = 1.5, //clk to output Low-Z
+ tCHZ = 3.0, //clk to data Hi-Z
+ tOE = 3.8, //OE to output valid
+ tOLZ = 0.0, //OE to output Hi-Z
+ tOHZ = 3.8, //OE to output Hi-Z
+
+//Set up times
+ tSE = 1.5, //clock enable set-up
+ tSA = 1.5, //address set-up
+ tSD = 1.5, //data set-up
+ tSW = 1.5, //Read/Write set-up
+ tSADV = 1.5, //Advance/Load set-up
+ tSC = 1.5, //Chip enable set-up
+ tSB = 1.5, //Byte write enable set-up
+
+//Hold times
+ tHE = 0.5, //clock enable hold
+ tHA = 0.5, //address hold
+ tHD = 0.5, //data hold
+ tHW = 0.5, //Read/Write hold
+ tHADV = 0.5, //Advance/Load hold
+ tHC = 0.5, //Chip enable hold
+ tHB = 0.5; //Byte write enable hold
+
+
+ (oe_ *> IO) = (tOE,tOE,tOHZ,tOLZ,tOHZ,tOLZ); //(01,10,0z,z1,1z,z0)
+ (clk *> IO) = (tCD,tCD,tCHZ,tCLZ,tCHZ,tCLZ); //(01,10,0z,z1,1z,z0)
+
+ (oe_ *> IOP) = (tOE,tOE,tOHZ,tOLZ,tOHZ,tOLZ); //(01,10,0z,z1,1z,z0)
+ (clk *> IOP) = (tCD,tCD,tCHZ,tCLZ,tCHZ,tCLZ); //(01,10,0z,z1,1z,z0)
+
+//timing checks
+
+ $period(posedge clk, tCYC );
+ $width (posedge clk, tCH );
+ $width (negedge clk, tCL );
+
+
+ $setuphold(posedge clk, A, tSA, tHA);
+ $setuphold(posedge clk, IO, tSD, tHD);
+ $setuphold(posedge clk, IOP, tSD, tHD);
+ $setuphold(posedge clk, adv_ld_, tSADV, tHADV);
+ $setuphold(posedge clk, bw1_, tSB, tHB);
+ $setuphold(posedge clk, bw2_, tSB, tHB);
+ $setuphold(posedge clk, bw3_, tSB, tHB);
+ $setuphold(posedge clk, bw4_, tSB, tHB);
+ $setuphold(posedge clk, ce1_, tSC, tHC);
+ $setuphold(posedge clk, ce2, tSC, tHC);
+ $setuphold(posedge clk, ce2_, tSC, tHC);
+ $setuphold(posedge clk, cen_, tSE, tHE);
+ $setuphold(posedge clk, r_w_, tSW, tHW);
+
+endspecify
+
+initial begin
+ cs_a = 0;
+ cs_b = 0;
+end
+
+
+/////////////////////////////////////////////////////////////////////////
+//input registers
+//--------------------
+always @(posedge clk)
+begin
+ if ( ~cen_ & ~adv_ld_ ) cs_a <= #regdelay cs;
+ if ( ~cen_ ) cs_b <= #regdelay cs_a;
+
+ if ( ~cen_ & ~adv_ld_ ) wren_a <= #regdelay (cs & ~r_w_);
+ if ( ~cen_ ) wren_b <= #regdelay wren_a;
+
+ if ( ~cen_ ) bw_a1 <= #regdelay ~bw1_;
+ if ( ~cen_ ) bw_a2 <= #regdelay ~bw2_;
+ if ( ~cen_ ) bw_a3 <= #regdelay ~bw3_;
+ if ( ~cen_ ) bw_a4 <= #regdelay ~bw4_;
+
+ if ( ~cen_ ) bw_b1 <= #regdelay bw_a1;
+ if ( ~cen_ ) bw_b2 <= #regdelay bw_a2;
+ if ( ~cen_ ) bw_b3 <= #regdelay bw_a3;
+ if ( ~cen_ ) bw_b4 <= #regdelay bw_a4;
+
+ if ( ~cen_ & ~adv_ld_ ) addr_a[17:0] <= #regdelay A[17:0];
+ if ( ~cen_ ) addr_b[17:0] <= #regdelay {addr_a[17:2], baddr1, baddr0};
+end
+
+
+/////////////////////////////////////////////////////////////////////////
+//burst counter
+//--------------------
+always @(posedge clk)
+begin
+ if ( lbo_ & ~cen_ & ~adv_ld_) brst_cnt <= #regdelay 0;
+ else if (~lbo_ & ~cen_ & ~adv_ld_) brst_cnt <= #regdelay A[1:0];
+ else if ( ~cen_ & adv_ld_) brst_cnt <= #regdelay brst_cnt + 1;
+end
+
+
+/////////////////////////////////////////////////////////////////////////
+//address logic
+//--------------------
+assign baddr1 = lbo_ ? (brst_cnt[1] ^ addr_a[1]) : brst_cnt[1];
+assign baddr0 = lbo_ ? (brst_cnt[0] ^ addr_a[0]) : brst_cnt[0];
+
+
+/////////////////////////////////////////////////////////////////////////
+//data output register
+//--------------------
+always @(posedge clk)
+begin
+ #regdelay;
+ #regdelay;
+ dout[8:0] = mem1[addr_b];
+ dout[17:9] = mem2[addr_b];
+ dout[26:18] = mem3[addr_b];
+ dout[35:27] = mem4[addr_b];
+end
+
+assign data_out = dout;
+
+
+/////////////////////////////////////////////////////////////////////////
+//Output buffers: using a bufif1 has the same effect as...
+//
+// assign D = doe ? data_out : 36'hz;
+//
+//It was coded this way to support SPECIFY delays in the specparam section.
+//--------------------
+bufif1 #outdly (IO[0],data_out[0],doe);
+bufif1 #outdly (IO[1],data_out[1],doe);
+bufif1 #outdly (IO[2],data_out[2],doe);
+bufif1 #outdly (IO[3],data_out[3],doe);
+bufif1 #outdly (IO[4],data_out[4],doe);
+bufif1 #outdly (IO[5],data_out[5],doe);
+bufif1 #outdly (IO[6],data_out[6],doe);
+bufif1 #outdly (IO[7],data_out[7],doe);
+bufif1 #outdly (IOP[1],data_out[8],doe);
+
+bufif1 #outdly (IO[8],data_out[9],doe);
+bufif1 #outdly (IO[9],data_out[10],doe);
+bufif1 #outdly (IO[10],data_out[11],doe);
+bufif1 #outdly (IO[11],data_out[12],doe);
+bufif1 #outdly (IO[12],data_out[13],doe);
+bufif1 #outdly (IO[13],data_out[14],doe);
+bufif1 #outdly (IO[14],data_out[15],doe);
+bufif1 #outdly (IO[15],data_out[16],doe);
+bufif1 #outdly (IOP[2],data_out[17],doe);
+
+bufif1 #outdly (IO[16],data_out[18],doe);
+bufif1 #outdly (IO[17],data_out[19],doe);
+bufif1 #outdly (IO[18],data_out[20],doe);
+bufif1 #outdly (IO[19],data_out[21],doe);
+bufif1 #outdly (IO[20],data_out[22],doe);
+bufif1 #outdly (IO[21],data_out[23],doe);
+bufif1 #outdly (IO[22],data_out[24],doe);
+bufif1 #outdly (IO[23],data_out[25],doe);
+bufif1 #outdly (IOP[3],data_out[26],doe);
+
+bufif1 #outdly (IO[24],data_out[27],doe);
+bufif1 #outdly (IO[25],data_out[28],doe);
+bufif1 #outdly (IO[26],data_out[29],doe);
+bufif1 #outdly (IO[27],data_out[30],doe);
+bufif1 #outdly (IO[28],data_out[31],doe);
+bufif1 #outdly (IO[29],data_out[32],doe);
+bufif1 #outdly (IO[30],data_out[33],doe);
+bufif1 #outdly (IO[31],data_out[34],doe);
+bufif1 #outdly (IOP[4],data_out[35],doe);
+
+assign doe = cs_b & ~wren_b & ~oe_ ;
+
+
+/////////////////////////////////////////////////////////////////////////
+// write to ram
+//-------------
+always @(posedge clk)
+begin
+ if (wren_b & bw_b1 & ~cen_) mem1[addr_b] = {IOP[1], IO[7:0]};
+ if (wren_b & bw_b2 & ~cen_) mem2[addr_b] = {IOP[2], IO[15:8]};
+ if (wren_b & bw_b3 & ~cen_) mem3[addr_b] = {IOP[3], IO[23:16]};
+ if (wren_b & bw_b4 & ~cen_) mem4[addr_b] = {IOP[4], IO[31:24]};
+end
+
+endmodule