diff options
author | Westergreen, Dalon <dalon.westergreen@intel.com> | 2017-03-29 15:41:36 -0700 |
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committer | Westergreen, Dalon <dalon.westergreen@intel.com> | 2017-03-30 16:35:30 -0700 |
commit | 9a293641b9abf9e4fca34f46a2de781f50847da9 (patch) | |
tree | 743a6aaa5f9834987a2e69881ced6eaf9efb3592 /recipes-demo/de10-nano-fftsw-apps/files | |
parent | 8abd3fefd939f796ae49191d6f5af641f2d624d0 (diff) | |
download | meta-de10-nano-9a293641b9abf9e4fca34f46a2de781f50847da9.tar.xz |
Initial commit of de10-nano recipes
Please note that this is purely for development. Only superficial
efforts have been made to resolve security concerns, and it should
be noted that the board ships with an EMPTY ROOT PASSWORD and support
for root login via ssh. This allows passwordless access to the board
via ssh.
recipes-bsp/u-boot:
Contains the uboot 2017.03rc2 recipe and patches to support the
de10-nano board
recipes-connectivity/avahi:
bbappend to remove unwanted packages
recipes-connectivity/bluez:
bbappend to add --compat to the bluetooth service to support legacy
SDP APIs
recipes-connectivity/openssh:
bbappend to add a custom sshd_config
recipes-core/base-files:
bbappend to customize fstab and inputrc
recipes-core/imagemagick:
bbappend to change build configuration for the de10-nano board
recipes-core/packagegroups:
bbappend to remove an unwanted package
recipes-core/webkit:
bbappend to remove support for opengl
recipes-demo:
Various demo applications
recipes-devtools:
MRAA and UPM recipes
recipes-images/angstrom/de10-nano-image.bb:
DE10-Nano image definition
recipes-kernel/de10-nano-linux-firmware:
FPGA related firmware required for fpga configuration and devicetree
overlay support
recipes-kernel/linux:
bbappend to customize configuration of linux kernel as well as patch
in the de10-nano devicetree
recipes-misc:
various initialization and systemd scripts
recipes-qt/qt5:
bbappend to modify qt build options
recipes-support/neon:
bbappend to remove unwanted package
recipes-support/upower:
bbappend to remove unwanted package
recipes-webserver:
webserver configuration and webcontent for board hostedweb portal
recipes-xfce/thunar-volman:
bbappend to remove unwanted package
recipes-xfce/xfce-pointers:
add configuration so that xfce does not use the adxl input as a mouse
recipes-xfce/xfce4-settings:
bbappend to remove unwanted package
Signed-off-by: Westergreen, Dalon <dalon.westergreen@intel.com>
Diffstat (limited to 'recipes-demo/de10-nano-fftsw-apps/files')
94 files changed, 6968 insertions, 0 deletions
diff --git a/recipes-demo/de10-nano-fftsw-apps/files/LICENSE b/recipes-demo/de10-nano-fftsw-apps/files/LICENSE new file mode 100644 index 0000000..ab84792 --- /dev/null +++ b/recipes-demo/de10-nano-fftsw-apps/files/LICENSE @@ -0,0 +1,22 @@ +The MIT License (MIT) +Copyright (c) 2016 Intel Corporation + +Permission is hereby granted, free of charge, to any person obtaining a copy +of this software and associated documentation files (the "Software"), to deal +in the Software without restriction, including without limitation the rights +to use, copy, modify, merge, publish, distribute, sublicense, and/or sell +copies of the Software, and to permit persons to whom the Software is +furnished to do so, subject to the following conditions: + +The above copyright notice and this permission notice shall be included in +all copies or substantial portions of the Software. + +THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR +IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, +FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE +AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER +LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, +OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN +THE SOFTWARE. + + diff --git a/recipes-demo/de10-nano-fftsw-apps/files/README_HOST.TXT b/recipes-demo/de10-nano-fftsw-apps/files/README_HOST.TXT new file mode 100644 index 0000000..c068ccb --- /dev/null +++ b/recipes-demo/de10-nano-fftsw-apps/files/README_HOST.TXT @@ -0,0 +1,154 @@ +To build the applications in this directory, you should be able to run these +host scripts in this order: + +source ./setup_env.src + this will put the cross compiler tools into the PATH +./build_ne10.sh + this will build the ne10 library into a directory 'ne10' +./build_all.sh + this will build all the applications +./archive_for_target.sh + this will archive all applications and target scripts into fft.tgz for + installation on the target +./copy_to_target.sh + this will copy the fft.tgz archive and setup_target_fft_env.sh over to + the target + +Description of directory contents: + +build_ne10.sh + host script to build the ne10 library + +build_all.sh + host script to build all applications and libraries, except ne10 library + +build_app.sh + host script to build one application + +build_lib.sh + host script to build one library + +clean_all.sh + host script to clean all build objects + +archive_for_target.sh + host script to archive all applications and scripts for target + installation + +copy_to_target.sh + host script that copies fft.tgz archive and setup_target_fft_env.sh + script over to the target + +create_input_waveforms.sh + target script that executes waveform creation applications and + duplication scripts to create all input waveforms for the applications + to consume + +duplicate_x128.sh +duplicate_x32.sh +duplicate_x8.sh + these target scripts duplicate a file x8, x32 or x128 times. These are + used to replicate the fundamental waveforms into longer patterns + +images/ + this directory contains host scripts to create PNG images of waveform + data text files using gnu plot and montage from imagemagick + +run_all.sh +run_fft_256.sh +run_fft_256x32.sh +run_fft_256x32x128.sh +run_fft_4096.sh +run_stream_256x32x128.sh +run_stream_256x16x1.sh +run_stream_256x1x1.sh + these target scripts execute all of the various permutations of the demo + applications mentioned below + +setup_target_fft_env.sh + this target script is used to extract the fft.tgz archive onto the ram + disk mounted at /mnt/ram + +overhead.c + this is the source for the overhead library that all of the applications + are linked against + +c16_256.c +c16_256x32.c +c16_256x32x128.c +c16_4096.c + these applications use the NE10 C functions to implement the FFT + algorithm for a variety of input sample sizes with 16-bit resolution + +c32_256.c +c32_256x32.c +c32_256x32x128.c +c32_4096.c + these applications use the NE10 C functions to implement the FFT + algorithm for a variety of input sample sizes with 32-bit resolution + +fft_256.c +fft_256x32.c +fft_256x32x128.c +fft_4096.c + these applications use the FPGA logic to implement the FFT + algorithm for a variety of input sample sizes. This variant pushes + the input samples into the FPGA and pulls the results back out using + programmed I/O from the HPS Cortex A9 processor + +fftdma_256.c +fftdma_256x32.c +fftdma_256x32x128.c +fftdma_4096.c + these applications use the FPGA logic to implement the FFT + algorithm for a variety of input sample sizes. This variant moves + the input samples into the FPGA and the results back out using DMA + through the ACP port of the Cortex A9 processor + +neon16_256.c +neon16_256x32.c +neon16_256x32x128.c +neon16_4096.c + these applications use the NE10 NEON functions to implement the FFT + algorithm for a variety of input sample sizes with 16-bit resolution + +neon32_256.c +neon32_256x32.c +neon32_256x32x128.c +neon32_4096.c + these applications use the NE10 NEON functions to implement the FFT + algorithm for a variety of input sample sizes with 32-bit resolution + +stream_fpga_256x32x128.c +stream_fpga_256x16x1.c +stream_fpga_256x1x1.c +stream_neon32_256x32x128.c +stream_neon32_256x16x1.c +stream_neon32_256x1x1.c +stream_raw_256x32x128.c +stream_raw_256x16x1.c +stream_raw_256x1x1.c + these applications stream data from the FPGA into ramdisk files, the + fpga variant DMAs the input stream thru the FPGA FFT logic before it + is DMAed through the ACP port of the Cortex A9, the neon variant DMAs + the raw input data stream through the ACP port and then computes the FFT + algorithm on it before saving to the ram disk, the raw variant DMAs the + raw input data stream through the ACP port and then directly into the + ram disk + +create_real_short_sine32.c +create_real_short_square32.c +create_real_short_triangle32.c + these applications create the initial 32 samples of their respective + waveform, sine, square and triangle + +real_short_to_ne10cpx_long.c +real_short_to_ne10cpx_short.c + these applications translate the real short data format into ne10cpx + long and short format which is consumed by the demo applications + +ne10cpx_long_to_text.c +ne10cpx_short_to_text.c + these applications translate the ne10cpx long and short format binary + data into text format output wh |