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avalon-dma/design/dma_verilog/wb_dma_ch_pri_enc.v
Mario Hüttel 9d67bb6b01 init commit
2018-03-06 15:11:37 +01:00

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/////////////////////////////////////////////////////////////////////
//// ////
//// WISHBONE DMA Priority Encoder ////
//// ////
//// ////
//// Author: Rudolf Usselmann ////
//// rudi@asics.ws ////
//// ////
//// ////
//// Downloaded from: http://www.opencores.org/cores/wb_dma/ ////
//// ////
/////////////////////////////////////////////////////////////////////
//// ////
//// Copyright (C) 2000-2002 Rudolf Usselmann ////
//// www.asics.ws ////
//// rudi@asics.ws ////
//// ////
//// This source file may be used and distributed without ////
//// restriction provided that this copyright statement is not ////
//// removed from the file and that any derivative work contains ////
//// the original copyright notice and the associated disclaimer.////
//// ////
//// THIS SOFTWARE IS PROVIDED ``AS IS'' AND WITHOUT ANY ////
//// EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED ////
//// TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS ////
//// FOR A PARTICULAR PURPOSE. IN NO EVENT SHALL THE AUTHOR ////
//// OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, ////
//// INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES ////
//// (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE ////
//// GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR ////
//// BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF ////
//// LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT ////
//// (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT ////
//// OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE ////
//// POSSIBILITY OF SUCH DAMAGE. ////
//// ////
/////////////////////////////////////////////////////////////////////
// CVS Log
//
// $Id: wb_dma_ch_pri_enc.v,v 1.5 2002-02-01 01:54:44 rudi Exp $
//
// $Date: 2002-02-01 01:54:44 $
// $Revision: 1.5 $
// $Author: rudi $
// $Locker: $
// $State: Exp $
//
// Change History:
// $Log: not supported by cvs2svn $
// Revision 1.4 2001/10/19 04:35:04 rudi
//
// - Made the core parameterized
//
// Revision 1.3 2001/08/15 05:40:30 rudi
//
// - Changed IO names to be more clear.
// - Uniquifyed define names to be core specific.
// - Added Section 3.10, describing DMA restart.
//
// Revision 1.2 2001/08/07 08:00:43 rudi
//
//
// Split up priority encoder modules to separate files
//
// Revision 1.1 2001/07/29 08:57:02 rudi
//
//
// 1) Changed Directory Structure
// 2) Added restart signal (REST)
//
// Revision 1.2 2001/06/05 10:22:36 rudi
//
//
// - Added Support of up to 31 channels
// - Added support for 2,4 and 8 priority levels
// - Now can have up to 31 channels
// - Added many configuration items
// - Changed reset to async
//
// Revision 1.1.1.1 2001/03/19 13:10:50 rudi
// Initial Release
//
//
//
`include "wb_dma_defines.v"
// Priority Encoder
//
// Determines the channel with the highest priority, also takes
// the valid bit in consideration
module wb_dma_ch_pri_enc(clk, valid,
pri0, pri1, pri2, pri3,
pri4, pri5, pri6, pri7,
pri8, pri9, pri10, pri11,
pri12, pri13, pri14, pri15,
pri16, pri17, pri18, pri19,
pri20, pri21, pri22, pri23,
pri24, pri25, pri26, pri27,
pri28, pri29, pri30,
pri_out);
////////////////////////////////////////////////////////////////////
//
// Module Parameters
//
// chXX_conf = { CBUF, ED, ARS, EN }
parameter [1:0] pri_sel = 2'd0;
parameter [3:0] ch0_conf = 4'h1;
parameter [3:0] ch1_conf = 4'h0;
parameter [3:0] ch2_conf = 4'h0;
parameter [3:0] ch3_conf = 4'h0;
parameter [3:0] ch4_conf = 4'h0;
parameter [3:0] ch5_conf = 4'h0;
parameter [3:0] ch6_conf = 4'h0;
parameter [3:0] ch7_conf = 4'h0;
parameter [3:0] ch8_conf = 4'h0;
parameter [3:0] ch9_conf = 4'h0;
parameter [3:0] ch10_conf = 4'h0;
parameter [3:0] ch11_conf = 4'h0;
parameter [3:0] ch12_conf = 4'h0;
parameter [3:0] ch13_conf = 4'h0;
parameter [3:0] ch14_conf = 4'h0;
parameter [3:0] ch15_conf = 4'h0;
parameter [3:0] ch16_conf = 4'h0;
parameter [3:0] ch17_conf = 4'h0;
parameter [3:0] ch18_conf = 4'h0;
parameter [3:0] ch19_conf = 4'h0;
parameter [3:0] ch20_conf = 4'h0;
parameter [3:0] ch21_conf = 4'h0;
parameter [3:0] ch22_conf = 4'h0;
parameter [3:0] ch23_conf = 4'h0;
parameter [3:0] ch24_conf = 4'h0;
parameter [3:0] ch25_conf = 4'h0;
parameter [3:0] ch26_conf = 4'h0;
parameter [3:0] ch27_conf = 4'h0;
parameter [3:0] ch28_conf = 4'h0;
parameter [3:0] ch29_conf = 4'h0;
parameter [3:0] ch30_conf = 4'h0;
////////////////////////////////////////////////////////////////////
//
// Module IOs
//
input clk;
input [30:0] valid; // Channel Valid bits
input [2:0] pri0, pri1, pri2, pri3; // Channel Priorities
input [2:0] pri4, pri5, pri6, pri7;
input [2:0] pri8, pri9, pri10, pri11;
input [2:0] pri12, pri13, pri14, pri15;
input [2:0] pri16, pri17, pri18, pri19;
input [2:0] pri20, pri21, pri22, pri23;
input [2:0] pri24, pri25, pri26, pri27;
input [2:0] pri28, pri29, pri30;
output [2:0] pri_out; // Highest unserviced priority
wire [7:0] pri0_out, pri1_out, pri2_out, pri3_out;
wire [7:0] pri4_out, pri5_out, pri6_out, pri7_out;
wire [7:0] pri8_out, pri9_out, pri10_out, pri11_out;
wire [7:0] pri12_out, pri13_out, pri14_out, pri15_out;
wire [7:0] pri16_out, pri17_out, pri18_out, pri19_out;
wire [7:0] pri20_out, pri21_out, pri22_out, pri23_out;
wire [7:0] pri24_out, pri25_out, pri26_out, pri27_out;
wire [7:0] pri28_out, pri29_out, pri30_out;
wire [7:0] pri_out_tmp;
reg [2:0] pri_out;
reg [2:0] pri_out2;
reg [2:0] pri_out1;
reg [2:0] pri_out0;
wb_dma_pri_enc_sub #(ch1_conf,pri_sel) u0( // Use channel config 1 for channel 0 encoder
.valid( valid[0] ),
.pri_in( pri0 ),
.pri_out( pri0_out )
);
wb_dma_pri_enc_sub #(ch1_conf,pri_sel) u1(
.valid( valid[1] ),
.pri_in( pri1 ),
.pri_out( pri1_out )
);
wb_dma_pri_enc_sub #(ch2_conf,pri_sel) u2(
.valid( valid[2] ),
.pri_in( pri2 ),
.pri_out( pri2_out )
);
wb_dma_pri_enc_sub #(ch3_conf,pri_sel) u3(
.valid( valid[3] ),
.pri_in( pri3 ),
.pri_out( pri3_out )
);
wb_dma_pri_enc_sub #(ch4_conf,pri_sel) u4(
.valid( valid[4] ),
.pri_in( pri4 ),
.pri_out( pri4_out )
);
wb_dma_pri_enc_sub #(ch5_conf,pri_sel) u5(
.valid( valid[5] ),
.pri_in( pri5 ),
.pri_out( pri5_out )
);
wb_dma_pri_enc_sub #(ch6_conf,pri_sel) u6(
.valid( valid[6] ),
.pri_in( pri6 ),
.pri_out( pri6_out )
);
wb_dma_pri_enc_sub #(ch7_conf,pri_sel) u7(
.valid( valid[7] ),
.pri_in( pri7 ),
.pri_out( pri7_out )
);
wb_dma_pri_enc_sub #(ch8_conf,pri_sel) u8(
.valid( valid[8] ),
.pri_in( pri8 ),
.pri_out( pri8_out )
);
wb_dma_pri_enc_sub #(ch9_conf,pri_sel) u9(
.valid( valid[9] ),
.pri_in( pri9 ),
.pri_out( pri9_out )
);
wb_dma_pri_enc_sub #(ch10_conf,pri_sel) u10(
.valid( valid[10] ),
.pri_in( pri10 ),
.pri_out( pri10_out )
);
wb_dma_pri_enc_sub #(ch11_conf,pri_sel) u11(
.valid( valid[11] ),
.pri_in( pri11 ),
.pri_out( pri11_out )
);
wb_dma_pri_enc_sub #(ch12_conf,pri_sel) u12(
.valid( valid[12] ),
.pri_in( pri12 ),
.pri_out( pri12_out )
);
wb_dma_pri_enc_sub #(ch13_conf,pri_sel) u13(
.valid( valid[13] ),
.pri_in( pri13 ),
.pri_out( pri13_out )
);
wb_dma_pri_enc_sub #(ch14_conf,pri_sel) u14(
.valid( valid[14] ),
.pri_in( pri14 ),
.pri_out( pri14_out )
);
wb_dma_pri_enc_sub #(ch15_conf,pri_sel) u15(
.valid( valid[15] ),
.pri_in( pri15 ),
.pri_out( pri15_out )
);
wb_dma_pri_enc_sub #(ch16_conf,pri_sel) u16(
.valid( valid[16] ),
.pri_in( pri16 ),
.pri_out( pri16_out )
);
wb_dma_pri_enc_sub #(ch17_conf,pri_sel) u17(
.valid( valid[17] ),
.pri_in( pri17 ),
.pri_out( pri17_out )
);
wb_dma_pri_enc_sub #(ch18_conf,pri_sel) u18(
.valid( valid[18] ),
.pri_in( pri18 ),
.pri_out( pri18_out )
);
wb_dma_pri_enc_sub #(ch19_conf,pri_sel) u19(
.valid( valid[19] ),
.pri_in( pri19 ),
.pri_out( pri19_out )
);
wb_dma_pri_enc_sub #(ch20_conf,pri_sel) u20(
.valid( valid[20] ),
.pri_in( pri20 ),
.pri_out( pri20_out )
);
wb_dma_pri_enc_sub #(ch21_conf,pri_sel) u21(
.valid( valid[21] ),
.pri_in( pri21 ),
.pri_out( pri21_out )
);
wb_dma_pri_enc_sub #(ch22_conf,pri_sel) u22(
.valid( valid[22] ),
.pri_in( pri22 ),
.pri_out( pri22_out )
);
wb_dma_pri_enc_sub #(ch23_conf,pri_sel) u23(
.valid( valid[23] ),
.pri_in( pri23 ),
.pri_out( pri23_out )
);
wb_dma_pri_enc_sub #(ch24_conf,pri_sel) u24(
.valid( valid[24] ),
.pri_in( pri24 ),
.pri_out( pri24_out )
);
wb_dma_pri_enc_sub #(ch25_conf,pri_sel) u25(
.valid( valid[25] ),
.pri_in( pri25 ),
.pri_out( pri25_out )
);
wb_dma_pri_enc_sub #(ch26_conf,pri_sel) u26(
.valid( valid[26] ),
.pri_in( pri26 ),
.pri_out( pri26_out )
);
wb_dma_pri_enc_sub #(ch27_conf,pri_sel) u27(
.valid( valid[27] ),
.pri_in( pri27 ),
.pri_out( pri27_out )
);
wb_dma_pri_enc_sub #(ch28_conf,pri_sel) u28(
.valid( valid[28] ),
.pri_in( pri28 ),
.pri_out( pri28_out )
);
wb_dma_pri_enc_sub #(ch29_conf,pri_sel) u29(
.valid( valid[29] ),
.pri_in( pri29 ),
.pri_out( pri29_out )
);
wb_dma_pri_enc_sub #(ch30_conf,pri_sel) u30(
.valid( valid[30] ),
.pri_in( pri30 ),
.pri_out( pri30_out )
);
assign pri_out_tmp = pri0_out | pri1_out | pri2_out | pri3_out |
pri4_out | pri5_out | pri6_out | pri7_out |
pri8_out | pri9_out | pri10_out | pri11_out |
pri12_out | pri13_out | pri14_out | pri15_out |
pri16_out | pri17_out | pri18_out | pri19_out |
pri20_out | pri21_out | pri22_out | pri23_out |
pri24_out | pri25_out | pri26_out | pri27_out |
pri28_out | pri29_out | pri30_out;
// 8 Priority Levels
always @(posedge clk)
if(pri_out_tmp[7]) pri_out2 <= #1 3'h7;
else
if(pri_out_tmp[6]) pri_out2 <= #1 3'h6;
else
if(pri_out_tmp[5]) pri_out2 <= #1 3'h5;
else
if(pri_out_tmp[4]) pri_out2 <= #1 3'h4;
else
if(pri_out_tmp[3]) pri_out2 <= #1 3'h3;
else
if(pri_out_tmp[2]) pri_out2 <= #1 3'h2;
else
if(pri_out_tmp[1]) pri_out2 <= #1 3'h1;
else pri_out2 <= #1 3'h0;
// 4 Priority Levels
always @(posedge clk)
if(pri_out_tmp[3]) pri_out1 <= #1 3'h3;
else
if(pri_out_tmp[2]) pri_out1 <= #1 3'h2;
else
if(pri_out_tmp[1]) pri_out1 <= #1 3'h1;
else pri_out1 <= #1 3'h0;
// 2 Priority Levels
always @(posedge clk)
if(pri_out_tmp[1]) pri_out0 <= #1 3'h1;
else pri_out0 <= #1 3'h0;
// Select configured priority
always @(pri_sel or pri_out0 or pri_out1 or pri_out2)
case(pri_sel) // synopsys parallel_case full_case
2'd0: pri_out = pri_out0;
2'd1: pri_out = pri_out1;
2'd2: pri_out = pri_out2;
endcase
endmodule
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