################################################################################
# Vivado (TM) v2015.4 (64-bit)
#
# README.txt: Please read the sections below to understand the steps required
# to simulate the design for a simulator, the directory structure
# and the generated exported files.
#
################################################################################
1. Simulate Design
To simulate design, cd to the simulator directory and execute the script.
For example:-
% cd questa
% ./top.sh
The export simulation flow requires the Xilinx pre-compiled simulation library
components for the target simulator. These components are referred using the
'-lib_map_path' switch. If this switch is specified, then the export simulation
will automatically set this library path in the generated script and update,
copy the simulator setup file(s) in the exported directory.
If '-lib_map_path' is not specified, then the pre-compiled simulation library
information will not be included in the exported scripts and that may cause
simulation errors when running this script. Alternatively, you can provide the
library information using this switch while executing the generated script.
For example:-
% ./top.sh -lib_map_path /design/questa/clibs
Please refer to the generated script header 'Prerequisite' section for more details.
2. Directory Structure
By default, if the -directory switch is not specified, export_simulation will
create the following directory structure:-
<current_working_directory>/export_sim/<simulator>
For example, if the current working directory is /tmp/test, export_simulation
will create the following directory path:-
/tmp/test/export_sim/questa
If -directory switch is specified, export_simulation will create a simulator
sub-directory under the specified directory path.
For example, 'export_simulation -directory /tmp/test/my_test_area/func_sim'
command will create the following directory:-
/tmp/test/my_test_area/func_sim/questa
By default, if -simulator is not specified, export_simulation will create a
simulator sub-directory for each simulator and export the files for each simulator
in this sub-directory respectively.
IMPORTANT: Please note that the simulation library path must be specified manually
in the generated script for the respective simulator. Please refer to the generated
script header 'Prerequisite' section for more details.
3. Exported script and files
Export simulation will create the driver shell script, setup files and copy the
design sources in the output directory path.
By default, when the -script_name switch is not specified, export_simulation will
create the following script name:-
<simulation_top>.sh (Unix)
When exporting the files for an IP using the -of_objects switch, export_simulation
will create the following script name:-
<ip-name>.sh (Unix)
Export simulation will create the setup files for the target simulator specified
with the -simulator switch.
For example, if the target simulator is "ies", export_simulation will create the
'cds.lib', 'hdl.var' and design library diectories and mappings in the 'cds.lib'
file.
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GTX误码例程
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txt:56个
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GTX的官方使用例子,具体参数见我博客。实现了TX和RX的回环误码测试
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GTX误码例程 (490个子文件)
elaborate.bat 364B
compile.bat 327B
simulate.bat 294B
runme.bat 229B
runme.bat 229B
runme.bat 229B
runme.bat 229B
runme.bat 229B
gtwizard_0_exdes.bit 12.7MB
gtwizard_0_TB_behav_3332_1514774201.btree 23.31MB
gt_rom_init_tx.dat 11KB
gt_rom_init_rx.dat 11KB
gt_rom_init_tx.dat 11KB
gt_rom_init_rx.dat 11KB
gt_rom_init_tx.dat 11KB
gt_rom_init_rx.dat 11KB
gt_rom_init_tx.dat 11KB
gt_rom_init_rx.dat 11KB
xsim.dbg 130KB
gtwizard_0_exdes_routed.dcp 2.69MB
gtwizard_0_exdes_placed.dcp 2.23MB
gtwizard_0_exdes_opt.dcp 1.69MB
ila_0.dcp 720KB
ila_0.dcp 720KB
ila_1.dcp 485KB
ila_1.dcp 485KB
dbg_hub_CV.dcp 237KB
dbg_hub_CV.dcp 233KB
gtwizard_0.dcp 125KB
gtwizard_0_exdes.dcp 102KB
vio_0.dcp 93KB
vio_0.dcp 93KB
compile.do 832B
compile.do 828B
simulate.do 255B
simulate.do 245B
simulate.do 245B
simulate.do 245B
compile.do 210B
compile.do 210B
compile.do 210B
compile.do 206B
compile.do 206B
compile.do 206B
simulate.do 197B
simulate.do 187B
simulate.do 187B
simulate.do 187B
simulate.do 158B
simulate.do 158B
simulate.do 158B
simulate.do 158B
elaborate.do 127B
elaborate.do 117B
elaborate.do 117B
elaborate.do 117B
wave.do 12B
wave.do 12B
wave.do 12B
wave.do 12B
wave.do 12B
wave.do 12B
wave.do 12B
wave.do 12B
simulate.do 11B
simulate.do 11B
simulate.do 11B
simulate.do 11B
xsimk.exe 6.53MB
filelist_irun.f 752B
filelist.f 668B
filelist.f 668B
filelist.f 668B
filelist.f 668B
filelist.f 668B
filelist_irun.f 118B
filelist_irun.f 118B
filelist_irun.f 118B
filelist.f 70B
filelist.f 70B
filelist.f 70B
filelist.f 70B
filelist.f 70B
filelist.f 70B
filelist.f 70B
filelist.f 70B
filelist.f 70B
filelist.f 70B
filelist.f 70B
filelist.f 70B
filelist.f 70B
filelist.f 70B
filelist.f 70B
usage_statistics_ext_xsim.html 4KB
.xsim_webtallk.info 55B
vivado.jou 1KB
webtalk.jou 1KB
vivado.jou 852B
vivado.jou 847B
vivado.jou 821B
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资源评论
- 简甜XIU091610272023-07-27文件中的案例与实际情况贴合度很高,对解决实际问题具有很大的指导意义。
- XU美伢2023-07-27这个文件提供了很多关于GTX误码的有用信息,对理解问题起到了很好的引导作用。
- 三山卡夫卡2023-07-27这个文件的讲解方式非常朴实,没有过多的废话,让读者能够更快地掌握相关知识。
- 曹将2023-07-27它提供了一些实用的解决方案来应对GTX误码的问题,对工程师们非常有帮助。
- 石悦2023-07-27文件中的例程简洁明了,让人容易理解GTX误码的处理过程。
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