xapp1151_Param_CAM模块安装

xapp1151_Param_CAM模块安装

所需生成模块

• TCAM
• CAM

下载链接

赛灵思技术支持网站：http://www.xilinx.com/support.html

并在网页中搜索xapp1151，下载xapp1151_Param_CAM.zip，如下图所示

安装过程

1、在任意一个目录下，解压xapp1151_Param_CAM.zip

unzip xapp1151_Param_CAM.zip

并将reference_router_nf1_cml文件下的patches文件夹复制到刚刚解压的xapp1151_Param_cam目录下

cp -r patches <path>/xapp1151_cam_v1_1/

然后需添加一下ISE的路径信息

source <ISE_POSIZITION>/ISE_DS/settings64.sh

然后进入patches目录执行cam_patch.sh文件，打一些补丁

cd <path>/xapp1151_cam_v1_1/patches/
sh cam_patch.sh

笔者这里遇到了一个问题，错误提示如下

wpq@wpq:~/Downloads/xapp1151_cam_v1_1/patches$ sh cam_patch.sh 
Invalid file name ../implement/CustomizeWrapper.pl -- skipping patch
Invalid file name ../implement/vhdl_xst.scr -- skipping patch
Invalid file name ../src/vhdl/cam_pkg.vhd -- skipping patch
Invalid file name ../src/vhdl/cam_control.vhd -- skipping patch
Invalid file name ../src/vhdl/cam_mem_blk.vhd -- skipping patch
Invalid file name ../src/vhdl/cam_mem_blk_extdepth_prim.vhd -- skipping patch
Invalid file name ../src/vhdl/cam_rtl.vhd -- skipping patch

查看了问题缺少了文件，笔者也觉得很纳闷，于是尝试着修改cam_patch.sh把这相对路径改成绝对路径，如下

patch /home/wpq/Downloads/xapp1151_cam_v1_1/implement/CustomizeWrapper.pl CustomizeWrapper.pl.patch
patch /home/wpq/Downloads/xapp1151_cam_v1_1/implement/vhdl_xst.scr vhdl_xst.scr.patch
patch /home/wpq/Downloads/xapp1151_cam_v1_1/src/vhdl/cam_pkg.vhd cam_pkg.vhd.patch
patch /home/wpq/Downloads/xapp1151_cam_v1_1/src/vhdl/cam_control.vhd cam_control.vhd.patch
patch /home/wpq/Downloads/xapp1151_cam_v1_1/src/vhdl/cam_mem_blk.vhd cam_mem_blk.vhd.patch
patch /home/wpq/Downloads/xapp1151_cam_v1_1/src/vhdl/cam_mem_blk_extdepth_prim.vhd cam_mem_blk_extdepth_prim.vhd.patch
patch /home/wpq/Downloads/xapp1151_cam_v1_1/src/vhdl/cam_rtl.vhd cam_rtl.vhd.patch

此时在执行cam_patch.sh文件成功解决，如下

wpq@wpq:~/Downloads/xapp1151_cam_v1_1/patches$ sh cam_patch.sh 
patching file /home/wpq/Downloads/xapp1151_cam_v1_1/implement/vhdl_xst.scr
patching file /home/wpq/Downloads/xapp1151_cam_v1_1/src/vhdl/cam_pkg.vhd
patching file /home/wpq/Downloads/xapp1151_cam_v1_1/src/vhdl/cam_control.vhd
patching file /home/wpq/Downloads/xapp1151_cam_v1_1/src/vhdl/cam_mem_blk.vhd
patching file /home/wpq/Downloads/xapp1151_cam_v1_1/src/vhdl/cam_mem_blk_extdepth_prim.vhd
patching file /home/wpq/Downloads/xapp1151_cam_v1_1/src/vhdl/cam_rtl.vhd

2、CAM模块生成

执行以下命令，并填入如下所示参数：

cd <path>/xapp1151_cam_v1_1/implement
xilperl CustomizeWrapper.pl 

You need to specify several parameters. To choose those options, see follows:

***************************************************************
CAM Reference Design Customizer v1.1
***************************************************************

***************************************************************
Please input the following parameters for the CAM:
***************************************************************

Enter the FPGA base architecture to target
Valid options are virtex4, virtex5, virtex6, virtex6l, spartan3, spartan3e, spartan3a, spartan3adsp, aspartan3, aspartan3e, spartan6, kintex7 :
kintex7

Input the CAM data width.  Valid values are 1-512:
32

Input the CAM depth.  Valid values are 16-4096:
32

Enter the CAM memory type to implement
(Choose SRL-based if you need a Ternary or Enhanced Ternary mode CAM)
0 = SRL-based, 1 = BRAM-based: 0

Choose the Ternary Mode setting.
0 = Ternary Mode Off, 1 = Standard Ternary Mode, 2 = Enhanced Ternary Mode: 1

Will the CAM be write-able (WE pin)? (If no, CAM will be read-only) (y/n): y

Use a MIF file to initialize the memory contents? (y/n): n

Choose what type of encoding the MATCH_ADDR port will have.
0 = Binary Encoded, 1 = Single Match Unencoded (one-hot), 2 = Multi-match Unencoded: 1

For Binary Encoded or Single Match Unencoded MATCH_ADDR, output lowest address match or highest address match?
0 = Lowest, 1 = Highest: 0

Please select the optional features to be implemented:
Simultaneous Read/Write (y/n): y

Please select from the following optional input ports:
Enable (EN) (y/n): n

Please select from the following optional output ports:
Multiple Match Flag (MULTIPLE_MATCH) (y/n): n
Single Match Flag (SINGLE_MATCH) (y/n): n
Read Warning Flag (READ_WARNING) (y/n): n


After the selections the parameters should be as follows:

VHDL parameters were generated as follows:
===============================================
C_FAMILY              	: string  := kintex7;
C_MEM_TYPE            	: integer := 0;
C_WIDTH               	: integer := 32;
C_DEPTH               	: integer := 32;
C_ADDR_TYPE           	: integer := 1;
C_MATCH_RESOLUTION_TYPE : integer := 0;
C_TERNARY_MODE        	: integer := 1;
C_HAS_WE              	: integer := 1;
C_MEM_INIT            	: integer := 0;
C_HAS_CMP_DIN         	: integer := 1;
C_REG_OUTPUTS         	: integer := 0;
C_HAS_EN              	: integer := 0;
C_HAS_MULTIPLE_MATCH  	: integer := 0;
C_HAS_SINGLE_MATCH    	: integer := 0;
C_HAS_READ_WARNING    	: integer := 0;

===============================================

查看相同目录下的vhdl_xst.scr文件，并将-ofn ./results/cam.ngc改成```-ofn ./results/tcam.ngc``，如下所示

run
-ifmt VHDL
-work_lib cam
-p  xc7k325tffg676-1
-write_timing_constraints No
-ifn vhdl_xst.prj
-iobuf NO
-max_fanout 100
-ofn ./results/tcam.ngc 
-ofmt NGC
-bufg 1
-bus_delimiter ()
-hierarchy_separator /
-case Maintain
-opt_mode Speed
-opt_level 1
-loop_iteration_limit 5000
-use_new_parser yes

然后执行

xilperl RunXST.pl

3、修改Verilog代码

执行以下命令，生成对应的verilog代码

cd results
netgen -sim -ofmt verilog tcam.ngc

修改生成的tcam.v文件

• 将代码中的模块名cam_wrapper改成tcam

• 在端口声明后（即在output下一句，wire上一句），加入以下语句，虽然此句为注释，但必须得加上去，不然后续步骤会报错，笔者亲身踩坑

  // synthesis translate_off
  

• 在cam_wrapper(上面我们已经改名为tcam)的endmodule前面加入以下语句

  // synthesis translate_on
  

4、将生成的文件复制到NetFPGA-1G-CML-live的相应目录下

执行以下命令，创建netlist目录

mkdir -p $(NF10_ROOT_DIRECTORY)/lib/hw/std/pcores/nf10_router_output_port_lookup_v1_00_a/netlist

将tcam.ngc复制到刚刚创建的netlist目录

cp tcam.ngc $(NF_ROOT)/lib/hw/std/pcores/nf10_router_output_port_lookup_v1_00_a/netlist

将tcam.v复制到对应的verilog目录下

cp tcam.v $(NF_ROOT)/lib/hw/std/pcores/nf10_router_output_port_lookup_v1_00_a/hdl/verilog

5、生成第二个cam模块，具体步骤与上述1-4步骤相似，只是一些参数不同

xilperl CustomizeWrapper.pl 

You need to specify several parameters. To choose those options, see follows:

***************************************************************
CAM Reference Design Customizer v1.1
***************************************************************

***************************************************************
Please input the following parameters for the CAM:
***************************************************************

Enter the FPGA base architecture to target
Valid options are virtex4, virtex5, virtex6, virtex6l, spartan3, spartan3e, spartan3a, spartan3adsp, aspartan3, aspartan3e, spartan6, kintex7 :
kintex7

Input the CAM data width.  Valid values are 1-512:
32

Input the CAM depth.  Valid values are 16-4096:
32

Enter the CAM memory type to implement
(Choose SRL-based if you need a Ternary or Enhanced Ternary mode CAM)
0 = SRL-based, 1 = BRAM-based: 1

NOTE: BRAM-based CAMs do not support Ternary Modes.
Setting C_TERNARY_MODE = 0 ...

Will the CAM be write-able (WE pin)? (If no, CAM will be read-only) (y/n): y

Use a MIF file to initialize the memory contents? (y/n): n

Choose what type of encoding the MATCH_ADDR port will have.
0 = Binary Encoded, 1 = Single Match Unencoded (one-hot), 2 = Multi-match Unencoded: 1

For Binary Encoded or Single Match Unencoded MATCH_ADDR, output lowest address match or highest address match?
0 = Lowest, 1 = Highest: 0

Please select the optional features to be implemented:
Simultaneous Read/Write (y/n): y
Register Outputs (y/n): n

Please select from the following optional input ports:
Enable (EN) (y/n): n

Please select from the following optional output ports:
Multiple Match Flag (MULTIPLE_MATCH) (y/n): n
Single Match Flag (SINGLE_MATCH) (y/n): n
Read Warning Flag (READ_WARNING) (y/n): n


After the selections the parameters should be as follows:

VHDL parameters were generated as follows:
===============================================
C_FAMILY              	: string  := kintex7;
C_MEM_TYPE            	: integer := 1;
C_WIDTH               	: integer := 32;
C_DEPTH               	: integer := 32;
C_ADDR_TYPE           	: integer := 1;
C_MATCH_RESOLUTION_TYPE : integer := 0;
C_TERNARY_MODE        	: integer := 0;
C_HAS_WE              	: integer := 1;
C_MEM_INIT            	: integer := 0;
C_HAS_CMP_DIN         	: integer := 1;
C_REG_OUTPUTS         	: integer := 0;
C_HAS_EN              	: integer := 0;
C_HAS_MULTIPLE_MATCH  	: integer := 0;
C_HAS_SINGLE_MATCH    	: integer := 0;
C_HAS_READ_WARNING    	: integer := 0;

===============================================

修改vhdl_xst.scr文件，如下所示

run
-ifmt VHDL
-work_lib cam
-p  xc7k325tffg676-1
-write_timing_constraints No
-ifn vhdl_xst.prj
-iobuf NO
-max_fanout 100
-ofn ./results/cam.ngc 
-ofmt NGC
-bufg 1
-bus_delimiter ()
-hierarchy_separator /
-case Maintain
-opt_mode Speed
-opt_level 1
-loop_iteration_limit 5000
-use_new_parser yes

然后执行

xilperl RunXST.pl

生成verilog代码

cd results 
netgen -sim -ofmt verilog cam.ngc

修改verilog代码

• 将代码中的模块名cam_wrapper改成cam

• 在端口声明后（即在output下一句，wire上一句），加入以下语句，虽然此句为注释，但必须得加上去，不然后续步骤会报错，笔者亲身踩坑

  // synthesis translate_off
  

• 在cam_wrapper(上面我们已经改名为tcam)的endmodule前面加入以下语句

  // synthesis translate_on
  

复制文件

cp cam.ngc $(NF_ROOT)/lib/hw/std/pcores/nf10_router_output_port_lookup_v1_00_a/netlist

cp cam.v $(NF_ROOT)/lib/hw/std/pcores/nf10_router_output_port_lookup_v1_00_a/hdl/verilog