U-Boot loader for PandaBoard.
To install this bootloader, copy the files MLO and u-boot.img to the FAT
partition on an SD card. Normally this is partition 1, but different
partitions can be set with U-Boot environment variables.
This version is patched so that:
* ELF and API features are enabled.
* The default environment is trimmed to just what's needed to boot.
* The saveenv command writes to the file uboot.env on the FAT partition.
* The DTB file name is passed to ubldr using the fdtfile env variable.
It defaults to omap4-panda.dtb unless you override it. ubldr loads
the DTB from /boot/dtb/ on the FreeBSD partition.
(Not tested)
* By default, it loads ELF ubldr from file ubldr on the FAT partition
to address 0x88000000, and launches it.
For information about running FreeBSD on the PandaBoard, see
https://wiki.freebsd.org/FreeBSD/arm/PandaBoard
For general information about U-Boot see WWW: http://www.denx.de/wiki/U-Boot
U-Boot loader for Banana Pi M3.
To install this bootloader, follow the instructions in
http://linux-sunxi.org/Bootable_SD_card#Bootloader
This version is patched so that:
* ELF and API features are enabled.
* The default environment is trimmed to just what's needed to boot.
* The saveenv command writes to the file u-boot.env on the FAT partition.
* The DTB file name is chosen based on the board model and passed to ubldr
using the fdtfile env variable. ubldr loads the DTB from /boot/dtb/ on
the FreeBSD partition.
* By default, it loads ELF ubldr from file ubldr on the FAT partition
to address 0x42000000, and launches it.
For information about running FreeBSD on Banana Pi M3, see
https://wiki.freebsd.org/FreeBSD/arm/Allwinner
For general information about U-Boot see WWW: http://www.denx.de/wiki/U-Boot
U-Boot loader for pcDuino3
To install this bootloader on an sdcard just do :
dd if=/usr/local/share/u-boot/u-boot-boardname/u-boot-sunxi-with-spl.bin of=/path/to/sdcarddevice bs=1k seek=8 conv=notrunc,sync
This version is patched so that:
* ELF and API features are enabled.
* The default environment is trimmed to just what's needed to boot.
* The saveenv command writes to the file u-boot.env on the FAT partition.
* The DTB file name is chosen based on the board model and passed to ubldr.bin
using the fdtfile env variable. ubldr.bin loads the DTB from /boot/dtb/ on
the FreeBSD partition.
* By default, it loads PIE ubldr.bin from file ubldr.bin on the FAT partition
to address 0x42000000, and launches it.
For information about running FreeBSD on Allwinner boards, see
https://wiki.freebsd.org/FreeBSD/arm/Allwinner
For general information about U-Boot see WWW: http://www.denx.de/wiki/U-Boot
This is the KMFL IMEngine for IBus (Intelligent Input Bus) framework.
It allows you to use layouts written in KMN keyboard language through
standard IBus interface, through KMFL compiler (textproc/kmflcomp) and
KMFL library (textproc/libkmfl).
KMFL aims to bring Tavultesoft Keyman functionality to *nix operating
systems. KMFL is being jointly developed by SIL International
(http://www.sil.org) and Tavultesoft (http://www.tavultesoft.com).
The powerful KMN keyboard language supports contextual deadkeys, pre-
and post-processing of keystrokes, rules grouping, 'storing' of
character classes for use in similar rules, custom and Unicode character
constants, SIL Ethnologue language codes, etc.
Official Tavultesoft repository contains keyboards that cover more
than 220 languages. Significant number of them are open source.
The keyboard ports are textproc/kmfl-*.
KMFL aims to bring Tavultesoft Keyman functionality to *nix operating
systems. KMFL is being jointly developed by SIL International
(http://www.sil.org) and Tavultesoft (http://www.tavultesoft.com).
This is compiler for keyboard sources written in Keyman keyboard
language (.kmn files). Resulting binaries (.kmfl) can be used with
SCIM KMFL IMEngine (textproc/scim-kmfl-imengine).
The powerful KMN keyboard language supports contextual deadkeys,
pre- and post-processing of keystrokes, rules grouping, 'storing'
of character classes for use in similar rules, custom and Unicode
character constants, SIL Ethnologue language codes, etc.
Official Tavultesoft repository contains keyboards that cover more
than 220 languages. Significant number of them are open source.
Ported keyboards are textproc/scim-kmfl-*.
Brotli is a generic-purpose lossless compression algorithm that compresses data
using a combination of a modern variant of the LZ77 algorithm, Huffman coding
and 2nd order context modeling, with a compression ratio comparable to the best
currently available general-purpose compression methods. It is similar in speed
with deflate but offers more dense compression.
The specification of the Brotli Compressed Data Format is defined in the
following internet draft: http://www.ietf.org/id/draft-alakuijala-brotli
webbench is very simple HTTP benchmarking tool, which can benchmark
both WWW and proxy servers. webbench uses fork() for simulating
multiple clients and supports benchmarking by HTTP/0.9-HTTP/1.1
requests (without Keep-Alive). This benchmark is not very realistic,
but can test if your HTTPD can really handle many clients at once (try
to run some CGIs) without taking your machine down. I am using this
program for setting maximum number of Apaches. Webbench displays
results in pages/min and bytes/sec.
Radim Kolar
Bio::ASN1::EntrezGene is a regular expression-based Perl Parser for NCBI
Entrez Gene genome databases [1]. It parses an ASN.1-formatted Entrez Gene
record and returns a data structure that contains all data items from the
gene record.
[1] http://www.ncbi.nih.gov/entrez/query.fcgi?db=gene
The parser will report error & line number if input data does not conform
to the NCBI Entrez Gene genome annotation file format.
The Bioperl Project is an international association of developers of open
source Perl tools for bioinformatics, genomics and life science research.
Bioperl is a collection of object-oriented Perl modules created by the
Bioperl Project. It forms the basis of a large number of bioinformatics and
genomics applications.
(For an interesting aside on "How Perl saved the Human Genome Project", see
http://www.bioperl.org/wiki/How_Perl_saved_human_genome)
[ excerpt from developer's www site ]
The Power*Architect is a user-friendly data modeling tool created by data
warehouse designers, and has many unique features geared specifically for the
data warehouse architect. It allows users to reverse-engineer existing
databases, perform data profiling on source databases, and auto-generate ETL
metadata.
Plus, the Power*Architect has the ability to take snapshots of database
structures, allowing users to design DW data models while working offline.