Boot Time

Boot Time includes topics such as Boot Time measurement, Boot Time reduction, and Boot Time analysis. Boot Time directly impacts the first perception an end user has of a consumer electronic product. Regardless of how attractive or well designed a consumer electronic device is, the time required to move the device from off to an interactive, usable state is critical to obtaining a positive end user experience. Turning on a device is Use Case #1.

Technology/Project Pages
The following are individual pages with information about various technologies relevant to improving Boot Time for Linux. Some of these describe local patches available on this site. Others point to projects or patches maintained elsewhere.

Measuring Boot-up Time

 * Printk Times - simple system for showing timing information for each printk.
 * Kernel Function Trace - system for reporting function timings in the kernel.
 * Linux Trace Toolkit - system for reporting timing data for certain kernel and process events.
 * Oprofile - system-wide profiler for Linux.
 * Bootchart - a tool for performance analysis and visualization of the Linux boot process. Resource utilization and process information are collected during the user-space portion of the boot process and are later rendered in a PNG, SVG or EPS encoded chart.
 * Bootprobe - a set of System Tap scripts for analyzing system bootup.
 * and, let us not forget: "cat /proc/uptime"

Bootloader speedups

 * Kernel XIP - Allow kernel to be executed in-place in ROM or FLASH.
 * DMA Copy Of Kernel On Startup - Copy kernel from Flash to RAM using DMA

Kernel speedups

 * Disable Console - Avoid overhead of console output during system startup.
 * RTC No Sync - Avoid delay to synchronize system time with RTC clock edge on startup.
 * Short IDE Delays - Reduce duration of IDE startup delays (this is effective but possibly dangerous).
 * Hardcode kernel module info - Reduce the overhead of loading a module, by hardcoding some information used for loading the relocation information
 * IDE No Probe - Force kernel to observe the ide=noprobe option.
 * Preset LPJ - Allow the use of a preset loops_per_jiffy value.
 * Threaded Device Probing - Allow drivers to probe devices in parallel.

User-space and application speedups

 * Optimize RC Scripts - Reduce overhead of running RC scripts
 * Parallel RC Scripts - Run RC scripts in parallel instead of sequentially
 * Application XIP - Allow programs and libraries to be executed in-place in ROM or FLASH
 * Pre Linking - Avoid cost of runtime linking on first program load
 * GNU_HASH: ~ 50% speed improvement in dynamic linking
 * See http://sourceware.org/ml/binutils/2006-06/msg00418.html
 * Application Init Optimizations - Improvements in program load and init time via:
 * use of mmap vs. read
 * control over page mapping characteristics.

Information

 * Boot-up Time Definition Of Terms - definitions of terms
 * Kernel Instrumentation - lists some known kernel instrumentation tools. These are of interest for measuring kernel startup time.
 * Filesystem Information - information about boot-up times with various file systems
 * [[Image:alert.gif]] in progress - Boot-up Time Reduction Howto - this is a project to catalog existing boot-up time reduction techniques. Work on this project is under way.  The wiki will serve as the primary repository of information gathered for this project.
 * [[Image:alert.gif]]no content yet - Boot-up Time Delay Taxonomy - list of delays categorized by boot phase, type and magnitude

Articles

 * Optimizing Linker Load Times
 * (introducing various kinds of bootuptime reduction, prelinking, etc.)

Case Studies

 * Samsung proof-of-acceptability study for digital still camera: see [[Media:LinuxBootupTimeReduction4DSC.ppt|Boot Up Time Reduction PPT]]
 * Tim Bird's (Sony) survey of boot-up time reduction techniques:
 * Methods to Improve Boot-up Time in Linux - Paper prepared for 2004 Ottawa Linux Symposium
 * - December 2003 Presentation describing some existing boot-up time reduction techniques and strategies.

Kexec

 * Kexec is a system which allows a system to be rebooted without going through BIOS. That is, a Linux kernel can directly boot into another Linux kernel, without going through firmware. See the white paper at: kexec.pdf
 * 2004 Kernel Summit presentation: fastboot.pdf
 * here's another Kexec white paper:Reboot Fast

Others
embedded Linux devices supporting a 16bpp or 32bpp framebuffer.
 * bootspash.org - technology to put up a splash screen early in boot sequence
 * Gentoo Splashscreen - newer technology to put a splash screen early in the boot sequence
 * see the HOWTO at: HOWTO FBSplash
 * PSplash - PSplash is a userspace graphical boot splash screen for mainly
 * FSMLabs Fastboot - press release by FSMLabs about fast booting of their product. Is any of this published?


 * snapshot boot - a technology uses software resume to boot up the system quickly.