This document summarizes the development of the Linux kernel, including the large number of developers and companies involved, the rapid release cycle of new versions, and some highlights from recent years. Over 1,000 developers from nearly 200 companies contribute to each kernel release, with 7-12 week release cycles that deliver thousands of patches and new features. Major developments include Microsoft contributing code, security breaches at kernel.org, efforts to clean up ARM code, and the removal of the "big kernel lock" after 15 years.
International baccalaureate biology sl investigation_beans by felix dyrekFelix Dyrek
The researcher measured the length and mass of 160 lima beans to investigate variability within a species. There was variation in both length, which ranged from 1.2 to 2.9 cm, and mass, which ranged from 1.07 to 2.32 g. The data was sorted into classes to analyze patterns in the variability. Overall, the results supported the hypothesis that while some individuals were similar, organisms within a species can differ significantly from each other and the average.
La Boca del Infierno, Boca do Inferno en portugués, es una formación rocosa junto al mar que ofrece una imagen espectacular, sobre todo con marea alta y agitada.
This document provides instructions for quad booting a MacBook with macOS, Windows Vista, Windows XP, and Ubuntu Linux. It involves partitioning the hard drive into five partitions, installing each operating system to its own partition, and using rEFIt to select which OS to boot. Key steps include partitioning the drive, installing each OS one by one, installing rEFIt and Boot Camp drivers, setting the Ubuntu partition as the default boot, and editing Grub settings so it doesn't show a timeout menu.
This is my Blogging 101 Presentation that I use during my training. Training blurb: Come learn how to setup your own personal blog. A blog can be used in many ways personally (1) It is a great way for friends and family to follow your adventures! and (2) It can also be used as your own personal web presence (website) where you store your resume and write up your work experiences. Participants will be shown a variety of examples and can get started with their own blog!
International baccalaureate biology sl investigation_beans by felix dyrekFelix Dyrek
The researcher measured the length and mass of 160 lima beans to investigate variability within a species. There was variation in both length, which ranged from 1.2 to 2.9 cm, and mass, which ranged from 1.07 to 2.32 g. The data was sorted into classes to analyze patterns in the variability. Overall, the results supported the hypothesis that while some individuals were similar, organisms within a species can differ significantly from each other and the average.
La Boca del Infierno, Boca do Inferno en portugués, es una formación rocosa junto al mar que ofrece una imagen espectacular, sobre todo con marea alta y agitada.
This document provides instructions for quad booting a MacBook with macOS, Windows Vista, Windows XP, and Ubuntu Linux. It involves partitioning the hard drive into five partitions, installing each operating system to its own partition, and using rEFIt to select which OS to boot. Key steps include partitioning the drive, installing each OS one by one, installing rEFIt and Boot Camp drivers, setting the Ubuntu partition as the default boot, and editing Grub settings so it doesn't show a timeout menu.
This is my Blogging 101 Presentation that I use during my training. Training blurb: Come learn how to setup your own personal blog. A blog can be used in many ways personally (1) It is a great way for friends and family to follow your adventures! and (2) It can also be used as your own personal web presence (website) where you store your resume and write up your work experiences. Participants will be shown a variety of examples and can get started with their own blog!
This document discusses different types of polygons, including regular polygons which have equal side lengths and equal angles, and irregular polygons which do not have equal sides or angles. It provides examples of regular polygons up to ten sides and notes that circles are not polygons since they do not have straight lines.
This document discusses how an MLM distributor named Nancy uses IPTV to help grow her beauty products business. It describes how Nancy creates an online site and video content to promote her products on a dedicated MLM TV channel. This allows her marketing messages to reach thousands of potential new customers. With IPTV, Nancy's customers can easily access product information, training videos, and communicate directly with Nancy. The IPTV solution helps Nancy grow her business with less effort by bringing customers to her around the clock.
El documento es una súplica de ayuda para detener el asesinato y masacre de un grupo no especificado. Pide ayuda urgentemente al lector, afirmando que el grupo no puede defenderse y que están siendo asesinados en ese momento. También cuestiona cómo puede ser un deporte el matar a otros que viven pacíficamente.
The document proposes an international networking platform for women to connect around business, careers, lifestyle and family through online profiles, discussion forums, and networking tools to find partners, advice, jobs and promote their business or brand. The platform would be built on the CommSquare Social Networking Platform using technologies like .NET, C#, SQL Server and provide features like personal websites, directories and CRM tools. It envisions helping women entrepreneurs and professionals grow their networks and businesses globally through an online community.
Sosiale medier og journalistikk - hva er sosiale medier?Oyvind Solstad
Sosiale medier og journalistikk - Høgskolen Kristiania
Økt 1: Hva er sosiale medier?
• introduksjon
• definisjoner og termer
• sosiale medier fantes lenge før internett kom • internett kommer
• sosiale medier kommer
This document discusses how IPTV and network marketing can be used together for education and earning money. It describes how IPTV provides on-demand language and skills courses, interactive learning tools, and a way to create and share your own "how-to" videos, audio, and texts. People can make money by selling access to these educational resources on the IPTV network and recruiting others to do the same. Contact information is provided for a company that can help set up such an IPTV-based educational and multi-level marketing system.
Information Overload: Tools for Interactive CommunicationsAdvocacy Social
This document discusses the rise of social media and interactive online communications. It notes that people are connecting through various media like blogs, social networks, wikis and more. Both individuals and companies need to listen to online conversations, identify influencers, and engage transparently in discussions. Social media gives people a voice and companies must embrace this change rather than try to control the conversation. The key is understanding where your target audience interacts online and creating messages that resonate on the appropriate platforms.
Hva skjer når mashups blir mer regelen enn unntaket? Teknikk og strategi rundt å bidra med innhold uavhengig av form. Presentasjon ved Webforum 2009 i Oslo, 19. mars 2009.
Øyvind Solstad
NRKbeta.no
Η παρουσίαση έγινε από τον κ. Θεόδωρο Αμπατζόπουλο (αναπληρωτή καθηγητή του τμήματος Βιολογίας του ΑΠΘ) στα πλαίσια της εκδήλωσης της ομάδας Νετρίνο "Ηλιακό Σύστημα <-> Πλανήτης Γη <-> Ζωή".
El documento presenta fotos tomadas desde un bus turístico en Mallorca, España. Muestra paisajes como la Catedral de Palma de Mallorca, el palacio de Marivent y un antiguo cañón para la defensa del puerto. También incluye fotos de personas en la excursión y de una estatua en honor al poeta Kavafis. El documento fue editado y montado por Emilio Gil, un jubilado que documentó su viaje en bus por la isla a través de fotografías.
Spring Tooling Update - New & Noteworty (at SpringOne 2011)martinlippert
This document provides an overview and summary of new features in the Spring Tool Suite (STS) development environment. STS 2.8.0 introduces support for Java 7 language features, Spring 3.1 profiles and c-namespace, Groovy 1.8.3 and Grails 2.0, and Gradle integration. It also improves support for developing Spring applications on Cloud Foundry, including direct deployment, debugging apps in the cloud, and profiling apps with Spring Insight. Future releases will provide more advanced Spring and Grails support, as well as making STS open source.
The document summarizes statistics about the Linux kernel from 2007. It states that there is a new Linux kernel release every 2.5 months. Between releases 2.6.18 and 2.6.22, there was growth of 10% with 8.5 million lines of code and over 2,000 lines added and modified daily. It also lists the top individual developers and companies funding development work, with "amateurs" and unknown individuals contributing the most.
This document discusses different types of polygons, including regular polygons which have equal side lengths and equal angles, and irregular polygons which do not have equal sides or angles. It provides examples of regular polygons up to ten sides and notes that circles are not polygons since they do not have straight lines.
This document discusses how an MLM distributor named Nancy uses IPTV to help grow her beauty products business. It describes how Nancy creates an online site and video content to promote her products on a dedicated MLM TV channel. This allows her marketing messages to reach thousands of potential new customers. With IPTV, Nancy's customers can easily access product information, training videos, and communicate directly with Nancy. The IPTV solution helps Nancy grow her business with less effort by bringing customers to her around the clock.
El documento es una súplica de ayuda para detener el asesinato y masacre de un grupo no especificado. Pide ayuda urgentemente al lector, afirmando que el grupo no puede defenderse y que están siendo asesinados en ese momento. También cuestiona cómo puede ser un deporte el matar a otros que viven pacíficamente.
The document proposes an international networking platform for women to connect around business, careers, lifestyle and family through online profiles, discussion forums, and networking tools to find partners, advice, jobs and promote their business or brand. The platform would be built on the CommSquare Social Networking Platform using technologies like .NET, C#, SQL Server and provide features like personal websites, directories and CRM tools. It envisions helping women entrepreneurs and professionals grow their networks and businesses globally through an online community.
Sosiale medier og journalistikk - hva er sosiale medier?Oyvind Solstad
Sosiale medier og journalistikk - Høgskolen Kristiania
Økt 1: Hva er sosiale medier?
• introduksjon
• definisjoner og termer
• sosiale medier fantes lenge før internett kom • internett kommer
• sosiale medier kommer
This document discusses how IPTV and network marketing can be used together for education and earning money. It describes how IPTV provides on-demand language and skills courses, interactive learning tools, and a way to create and share your own "how-to" videos, audio, and texts. People can make money by selling access to these educational resources on the IPTV network and recruiting others to do the same. Contact information is provided for a company that can help set up such an IPTV-based educational and multi-level marketing system.
Information Overload: Tools for Interactive CommunicationsAdvocacy Social
This document discusses the rise of social media and interactive online communications. It notes that people are connecting through various media like blogs, social networks, wikis and more. Both individuals and companies need to listen to online conversations, identify influencers, and engage transparently in discussions. Social media gives people a voice and companies must embrace this change rather than try to control the conversation. The key is understanding where your target audience interacts online and creating messages that resonate on the appropriate platforms.
Hva skjer når mashups blir mer regelen enn unntaket? Teknikk og strategi rundt å bidra med innhold uavhengig av form. Presentasjon ved Webforum 2009 i Oslo, 19. mars 2009.
Øyvind Solstad
NRKbeta.no
Η παρουσίαση έγινε από τον κ. Θεόδωρο Αμπατζόπουλο (αναπληρωτή καθηγητή του τμήματος Βιολογίας του ΑΠΘ) στα πλαίσια της εκδήλωσης της ομάδας Νετρίνο "Ηλιακό Σύστημα <-> Πλανήτης Γη <-> Ζωή".
El documento presenta fotos tomadas desde un bus turístico en Mallorca, España. Muestra paisajes como la Catedral de Palma de Mallorca, el palacio de Marivent y un antiguo cañón para la defensa del puerto. También incluye fotos de personas en la excursión y de una estatua en honor al poeta Kavafis. El documento fue editado y montado por Emilio Gil, un jubilado que documentó su viaje en bus por la isla a través de fotografías.
Spring Tooling Update - New & Noteworty (at SpringOne 2011)martinlippert
This document provides an overview and summary of new features in the Spring Tool Suite (STS) development environment. STS 2.8.0 introduces support for Java 7 language features, Spring 3.1 profiles and c-namespace, Groovy 1.8.3 and Grails 2.0, and Gradle integration. It also improves support for developing Spring applications on Cloud Foundry, including direct deployment, debugging apps in the cloud, and profiling apps with Spring Insight. Future releases will provide more advanced Spring and Grails support, as well as making STS open source.
The document summarizes statistics about the Linux kernel from 2007. It states that there is a new Linux kernel release every 2.5 months. Between releases 2.6.18 and 2.6.22, there was growth of 10% with 8.5 million lines of code and over 2,000 lines added and modified daily. It also lists the top individual developers and companies funding development work, with "amateurs" and unknown individuals contributing the most.
Seaside does different to what is considered as best practices for Web development. It breaks with common best practices for Web development, such as to share as little state as possible, use clean and carefully chosen URLs, and use templates to separate model and presentation.
This talk will give a short introduction to a Web framework that is different by design. It will demonstrate what can be won when breaking the common patterns of Web development. Moreover it presents how Seaside integrates with the latest technologies such as AJAX and Comet.
Strong Fund Reserves Diminish Need For Venture Capitalists to Raise Additiona...mensa25
Strong fund reserves have diminished the need for venture capitalists to raise additional capital in 2022. In the first quarter, 44 venture capital funds raised $2.2 billion, a 56% decline from the previous quarter. This is an appropriate level given existing reserves and the investment pace. Limited partners have less appetite for new commitments until there is more liquidity from portfolio company exits. The average venture fund size was $50 million, reflecting downward trends in technology valuations.
In this video from LAD'19 in Paris, Peter Jones from Whamcloud presents: Lustre Community Release Update.
"Lustre is a vibrant Open Source project with many organizations working on new features and improvements in parallel. We coordinate those efforts primarily through OpenSFS and EOFS. Meeting development target dates is a difficult task for any software project, but doubly so in a globally distributed Open Source project.
"Lustre is a massively parallel filesystem designed for high-performance, large-scale data. Lustre is mature and open source (GPLv2), running stably in production at many thousands of sites around the world. For a number of years, a majority of the world’s 100 fastest supercomputers have relied on Lustre for their storage needs. If you need lots of data fast and reliably, and value the flexibility of using a wide choice of block storage and want to become part of a world-wide open community, then Lustre is a good choice."
Watch the video: https://wp.me/p3RLHQ-lgN
Learn more: http://lustre.org
and
https://www.eofs.eu/events/lad19
Sign up for our insideHPC Newsletter: http://insidehpc.com/newsletter
This document contains a summary of student results and grades for a Grade 11 Design class taught by Mr. Senisi at St. Jean de Brebeuf C.H.S. It includes each student's overall percentage, absences, late assignments, incomplete assignments, and grades for various assignments, projects and tests. It also outlines the grading scheme and categories assessed.
In this deck from DDN booth at SC18, Peter Jones from DDN presents: Lustre Roadmap & Community Update.
"With their new Whamcloud Business Unit, DDN has already brought key Lustre developers on board to accelerate their high performance computing solutions.
"This important acquisition reinforces DDN’s presence as the global market leader for data at scale, while providing Lustre customers with enhanced field support and a well-funded technology roadmap. The acquisition also enables DDN to expand Lustre’s leading position from high performance computing (HPC) and Exascale into high growth markets such as analytics, AI and hybrid cloud."
Learn more: http://ddn.com
Sign up for our insideHPC Newsletter: http://insidehpc.com/newsletter
Here are the key results from the response table:
- For WL, the highest level of 2.0/ww had the steepest slope and highest S/N ratio, indicating it is the most robust setting
- For WW, the middle level of 0.75 had the steepest slope and highest S/N ratio, indicating it is the most robust setting
This step identifies the most robust settings for each control factor based on the experiment results.
The document discusses porting a device to run Android Jelly Bean. It begins with an introduction of the speaker and their background working with open source software. The agenda then outlines the topics to be covered, including the Android build system, various Android subsystems, and porting specific devices. Device porting involves designing the custom board around a reference design, ensuring hardware compatibility, selecting supported peripherals, writing detailed specifications, and addressing pin multiplexing. The goal is to provide developers a consistent environment.
This document discusses the Ruby on Rails web development framework. It provides statistics on its growing popularity and community including the number of plugins, commits, lines of code, releases and more over time. It also lists some of the key ways the Rails community contributes to building and improving the framework.
International baccalaureate biology sl investigation_beans by felix dyrekFelix Dyrek
The document summarizes an experiment measuring the variability in length and mass of 160 lima beans. The beans were measured individually and results were sorted into tables. 8 classes were established for bean length based on the range of measurements. There was found to be variation between individual beans of the same species even when grown in identical conditions, supporting the hypothesis.
Introduction to the Land Use Workshop | Vicky Westicarb
This workshop brings together interested parties to consider carbon accounting tools for land use. The agenda includes discussions of tools for woodlands, agriculture, peatlands, and integrating models. The Woodland Carbon Code is a voluntary standard for woodland creation projects where carbon is accounted for. It includes standards for predicting and measuring carbon sequestration and tracking carbon credits. Over 100 projects have been registered under the Code across the UK.
1. The document contains information about various Creative Commons licenses and how they are applied to different online resources and projects.
2. Key resources discussed include Wikipedia, Opendesk, Card Against Humanity, and several Taiwan government websites.
3. The different Creative Commons licenses applied to these resources are analyzed, including CC BY, CC BY-SA, CC BY-NC, and CC BY-NC-SA licenses. The appropriate licenses are discussed for different types of sharing and reuse of content.
This document provides an overview and status update on GeoServer, an open source geospatial data server. It summarizes new features and improvements in recent versions, including OSGeo incubation, a time boxed release model, security framework enhancements, REST configuration improvements, support for time and elevation dimensions in WMS, rendering transforms, CSS styling, WFS 2.0 updates like paging and stored queries, app schema and XSLT output format improvements, WCS 2.0 compliance and NetCDF support, tile service updates, scripting support for WPS, CSW architecture changes, and various community extensions for areas like Earth observation, importer tools, and monitoring.
JJUG CCC 2018 Spring LT Spring Boot アプリケーションの起動を速くする 108 の Tips #jjug_ccc #jjugShinya Mochida
This document contains 108 tips for optimizing Spring Boot applications. Tip 1 discusses class data sharing in Spring Boot applications and compares startup times with and without class data sharing enabled. Tip 2 provides options for Java Virtual Machine configuration to improve startup performance. Tip 108 explains that the @SpringBootApplication annotation is a convenience annotation that combines configuration for auto-configuration, component scanning and enabling Spring Data JPA repositories.
CR2 Empreendimentos Imobiliários S/A is a Brazilian real estate developer focused on the low-income housing segment. It uses a partnership model with pure play developers to gain control over individual projects while leveraging their strong project origination platform. As of the second quarter of 2010, the company's largest shareholders were board members and executives (45.3%), with Itaú Unibanco as the largest outside shareholder at 20.6%. The company aims to deliver R$702.5 million of launched projects by the end of 2010, representing 69% of total launched PSV. Net operating revenue for the first half of 2010 was R$231.4 million, with net profit of R$
The document discusses the evolution of ANT build systems over time. It examines two research questions: (1) Do source code and ANT build systems co-evolve? The analysis found that growth and reduction periods in build system size often coincide with source code, suggesting they co-evolve. (2) Does perceived build complexity evolve? Build length and depth were found to increase over time, indicating growing complexity. Other findings include correlations between build size and complexity metrics. Threats to validity and conclusions are also presented.
This document provides an overview of Git and GitHub. It begins by explaining what version control is and some common version control systems like local VCS, centralized VCS, and distributed VCS. It then discusses what Git is, how it works using snapshots rather than file differences, and how operations are local. Key Git concepts like integrity, only adding data, and the three states of modified, staged, and committed are covered. The document teaches basic Git commands and how to work with remotes and GitHub. It details Git's branching model and how branches are lightweight and fast in Git. In the end, it acknowledges some references that were used and warns about force pushing.
Select, manage, and backport the long term stable kernelsSZ Lin
The document discusses selecting and managing Linux kernel versions, including mainline, stable, and long-term kernels. It notes mainline kernels are released every 2-3 months with new features, while stable kernels receive only bug and security fixes. Long-term kernels provide long-term support with backported fixes for older releases. The document recommends using a release version over rolling versions for stability and outlines practices for monitoring kernels and addressing regressions.
The document summarizes federal spectrum usage between 30 MHz and 3000 GHz. It provides details on spectrum allocated to federal agencies such as the military, FAA, Department of Justice, and National Science Foundation. For each frequency band, it lists the federal and non-federal allocations and describes the primary federal uses, including tactical communications, air support, command and control, land mobile radio, radio astronomy research, and meteor burst communications. The purpose is to inform the public about spectrum used by federal agencies for operations including national defense, transportation, law enforcement, land management, and science.
This document describes how to configure a router running OpenWrt. It covers getting started, installing and initial configuration. It also provides details on configuring the network and wireless settings in OpenWrt, including IPv4, IPv6 and switch configuration. Advanced configuration topics like hotplug, init scripts and network scripts are also outlined.
Fiat Stilo Connect Nav+ GPS GSM hidden diagnostic menufosk
This document provides instructions to access a hidden service test menu on the Connect Nav+ unit. It describes pressing specific buttons in a particular order - "Setup", then "Connect" 4 times quickly, then "Enter" - which will cause a "Service" button to appear. Selecting this allows testing and ensuring various modules, speakers, antennas, and GPS/GSM systems are functioning properly.
The second part of the document provides meanings for channel options in the service test menu, including checking system errors, interior and exterior temperature sensors, air vents, display, temperature flap settings, and potentiometer values.
The document discusses the benefits of exercise for mental health. Regular physical activity can help reduce anxiety and depression and improve mood and cognitive functioning. Exercise causes chemical changes in the brain that may help protect against mental illness and improve symptoms.
1. Linux Kernel Development
How Fast it is Going, Who is Doing It,
What They are Doing, and Who is Sponsoring It
Jonathan Corbet, LWN.net
Greg Kroah-Hartman, The Linux Foundation
Amanda McPherson, The Linux Foundation
March 2012
A White Paper By The Linux Foundation
http://www.linuxfoundation.org/
2. Summary
The kernel which forms the core of the Linux system is the result of one of the largest cooperative software
projects ever attempted. Regular 2-3 month releases deliver stable updates to Linux users, each with significant
new features, added device support, and improved performance. The rate of change in the kernel is high and
increasing, with between 8,000 and 12,000 patches going into each recent kernel release. These releases each
contain the work of over 1,000 developers representing nearly 200 corporations.
Since 2005, over 7,800 individual developers from almost 800 different companies have contributed to the kernel.
The Linux kernel, thus, has become a common resource developed on a massive scale by companies which are
fierce competitors in other areas.
This is the fourth update of this document, which has been published roughly annually since 2008. It covers
development through the 3.2 release, with an emphasis on the releases (2.6.36 to 3.2) made since the last update.
It has been a busy period, with seven kernel releases created, many significant changes made, and continual
growth of the kernel developer and user community.
Introduction
The Linux kernel is the lowest level of software running on a Linux system. It is charged with managing the
hardware, running user programs, and maintaining the overall security and integrity of the whole system. It is this
kernel which, after its initial release by Linus Torvalds in 1991, jump-started the development of Linux as a whole.
The kernel is a relatively small part of the software on a full Linux system (many other large components come
from the GNU project, the GNOME and KDE desktop projects, the X.org project, and many other sources), but it is
the core which determines how well the system will work and is the piece which is truly unique to Linux.
The Linux kernel is an interesting project to study for a number of reasons. It is one of the largest individual
components on almost any Linux system. It also features one of the fastest-moving development processes and
involves more developers than any other open source project. Since 2005, kernel development history is also quite
well documented, thanks to the use of the Git source code management system.
Some 2011 Kernel Development Highlights
It was another busy year in the kernel development community, as will be seen in the statistics shown below.
Beyond the sheer volume of changes made, though, there are a few other noteworthy things that happened during
this time. They include:
• The Linux kernel celebrated its twentieth anniversary; the initial announcement from Linus Torvalds was
posted on August 25, 1991. It was quickly followed by the first release (version 0.01) in September.
• The 2.6.x numbering scheme, which had been used since 2004, was finally put to rest with the release of the
3.0 kernel. There was nothing special about the 3.0 release; it was simply decided (after years of occasional
discussion) that the 2.6 version numbers were getting unwieldy.
• For the first time ever, Microsoft appeared in the list of the top-20 contributors for a kernel release.
• The central repository and distribution site for kernel development - kernel.org - suffered a severe security
breach and was offline for several weeks. As a result, the 3.1 kernel release was delayed. Extensive
investigations have concluded that no attempt was made to compromise the integrity of the kernel source
(such attempts would almost certainly have been discovered at the time anyway). Even so, as a result of this
incident, the security of the development process has been strengthened in a number of ways.
• There was a well-publicized blow-up over the state of the ARM architecture subtree in the kernel. It is true
that ARM has gotten a bit messy as the result of increased contributions from the embedded community.
In a sense, the kernel is a victim of its own success. By the end of the year, the effort to clean up this code
was already well advanced.
• The 2.0 release, in June, 1996, added symmetric multiprocessing support and, with it, the dreaded big
kernel lock. In 2011, almost exactly fifteen years later, the process of removing that lock was completed
with the release of the 2.6.39 kernel.
• The “Long-Term Support Initiative” was announced at the end of 2011. This effort, described in more detail
below, will provide predictable support for some kernel releases with an emphasis on providing a stable
base for embedded products.
Linux Kernel Development: How Fast it is Going, Who is Doing It, What They are Doing, and Who is Sponsoring It 1
3. Above and beyond all of that, though, the process of developing the kernel and making it better continued at a fast
pace. The remainder of this document will concern itself with the health of the development process and where all
that code came from.
Development Model
Linux kernel development proceeds under a loose, time-based release model, with a new major kernel release
occuring every 2-3 months. This model, which was first formalized in 2005, gets new features into the mainline
kernel and out to users with a minimum of delay. That, in turn, speeds up the pace of development and minimizes
the number of external changes that distributors need to apply. As a result, distributor kernels contain relatively
few distribution-specific changes; this leads to higher quality and fewer differences between distributions.
After each major kernel release by Linus Torvalds, the kernel’s “stable team” (currently Greg Kroah-Hartman) takes
up short-term maintenance, applying important fixes as they are developed. The stable process ensures that
important fixes are made available to distributors and users and that they are incorporated into future mainline
releases as well. The stable maintenance period lasts a minimum of two development cycles and, for specific
kernel releases, can go significantly longer. In recent years we have seen an increasing number of cooperative
industry efforts to maintain specific kernels for periods of one year or more.
Release Frequency
The desired release period for a major kernel release is, by common consensus, 8-12 weeks. A much shorter
period would not give testers enough times to find problems with new kernels, while a longer period would
allow too much work to pile up between releases. The actual time between kernel releases tends to vary a bit,
depending on the size of the release and the difficulty encountered in tracking down the last regressions. Since
2.6.11, the actual kernel release history looks like:
Kernel Version Release Date Days of Development
2.6.11 2005-03-02 69
2.6.12 2005-05-17 108
2.6.13 2005-08-28 73
2.6.14 2005-10-27 61
2.6.15 2006-01-02 68
2.6.16 2006-03-19 77
2.6.17 2006-06-17 91
2.6.18 2006-09-19 95
2.6.19 2006-11-29 72
2.6.20 2007-02-04 68
2.6.21 2007-04-25 81
2.6.22 2007-07-08 75
2.6.23 2007-10-09 94
2.6.24 2008-01-24 108
2.6.25 2008-04-16 83
2.6.26 2008-07-13 88
2.6.27 2008-10-09 88
2.6.28 2008-12-24 76
2.6.29 2009-03-23 89
2.6.30 2009-06-09 78
2.6.31 2009-09-09 92
2.6.32 2009-12-02 84
2.6.33 2010-02-24 84
2.6.34 2010-05-15 81
2.6.35 2010-08-01 77
2.6.36 2010-10-20 80
2.6.37 2011-01-04 76
2.6.38 2011-03-14 69
2.6.39 2011-05-18 65
3.0 2011-07-21 64
3.1 2011-10-24 95
3.2 2012-01-04 72
Linux Kernel Development: How Fast it is Going, Who is Doing It, What They are Doing, and Who is Sponsoring It 2
4. The average kernel development cycle runs for about 80 days, just under twelve weeks. The length of the cycle
has been slowly declining in recent years; many cycles now take less than 70 days to complete.
Rate of Change
When preparing work for submission to the Linux kernel, developers break their changes down into small,
individual units, called “patches.” These patches usually do only one thing to the source code; they are built on
top of each other, modifying the source code by changing, adding, or removing lines of code. Each patch should,
when applied, yield a kernel which still builds and works properly. This discipline forces kernel developers to
break their changes down into small, logical pieces; as a result, each change can be reviewed for code quality
and correctness. One other result is that the number of individual changes that go into each kernel release is very
large, as can be seen in the table below:
Kernel Version Changes (Patches)
2.6.11 3,616
2.6.12 5,047
2.6.13 3,904
2.6.14 3,627
2.6.15 4,959
2.6.16 5,369
2.6.17 5,727
2.6.18 6,323
2.6.19 6,685
2.6.20 4,768
2.6.21 5,016
2.6.22 6,526
2.6.23 6,662
2.6.24 9,836
2.6.25 12,243
2.6.26 9,941
2.6.27 10,628
2.6.28 9,048
2.6.29 11,678
2.6.30 11,989
2.6.31 10,883
2.6.32 10,989
2.6.33 10,871
2.6.34 9,443
2.6.35 9,801
2.6.36 9,501
2.6.37 11,446
2.6.38 9,577
2.6.39 10,269
3.0 9,153
3.1 8,693
3.2 11,881
Linux Kernel Development: How Fast it is Going, Who is Doing It, What They are Doing, and Who is Sponsoring It 3
5. By taking into account the amount of time required for each kernel release, one can arrive at the number of
changes accepted into the kernel per hour. The results can be seen in this table:
Kernel Version Changes Per Hour
2.6.11 2.18
2.6.12 1.95
2.6.13 2.23
2.6.14 2.48
2.6.15 3.04
2.6.16 2.91
2.6.17 2.62
2.6.18 2.22
2.6.19 3.87
2.6.20 2.92
2.6.21 2.58
2.6.22 3.63
2.6.23 2.95
2.6.24 3.79
2.6.25 6.15
2.6.26 4.71
2.6.27 5.03
2.6.28 4.96
2.6.29 5.47
2.6.30 6.40
2.6.31 4.93
2.6.32 5.46
2.6.33 5.39
2.6.34 4.86
2.6.35 5.30
2.6.36 4.95
2.6.37 6.28
2.6.38 5.78
2.6.39 6.58
3.0 5.96
3.1 3.81
3.2 6.88
So, between the 2.6.11 and 3.2 kernel releases (which were 2,581 days apart), there were, on average, 4.3 patches
applied to the kernel tree per hour. In the time since the publication of the previous version of this paper, that rate
has been significantly higher: 5.64 patches per hour. As the Linux kernel grows, the rate of change is growing with
it.
It is worth noting that the above figures understate the total level of activity; most patches go through a number of
revisions before being accepted into the mainline kernel, and many are never accepted at all. The ability to sustain
this rate of change for years is unprecedented in any previous public software project.
Stable Updates
As mentioned toward the beginning of this document, kernel development does not stop with a mainline release.
Inevitably, problems will be found in released kernels, and patches will be made to fix those problems. The stable
Linux Kernel Development: How Fast it is Going, Who is Doing It, What They are Doing, and Who is Sponsoring It 4
6. kernel update process was designed to capture those patches in a way that ensures that both the mainline kernel
and current releases are fixed. These stable updates are the base from which most distributor kernels are made.
The stable kernel update history (since the stable kernel process was introduced after the 2.6.11 release) looks like
this:
Kernel Version Total Updates Fixes
2.6.11 12 79
2.6.12 6 47
2.6.13 5 39
2.6.14 7 89
2.6.15 7 103
2.6.16 62 991
2.6.17 14 177
2.6.18 8 232
2.6.19 7 185
2.6.20 21 447
2.6.21 7 155
2.6.22 19 366
2.6.23 17 302
2.6.24 7 243
2.6.25 20 481
2.6.26 8 321
2.6.27 61 1,879
2.6.28 10 611
2.6.29 6 379
2.6.30 10 431
2.6.31 14 819
2.6.32 57 3,315
2.6.33 20 1,877
2.6.34 10 1,323
2.6.35 14 1,609
2.6.36 4 687
2.6.37 6 592
2.6.38 8 634
2.6.39 4 441
3.0 22 1,375
3.1 10 694
3.2 7 389
As can be seen, the number of updates going into stable kernels has grown over the years. The main driver for
this increase is a much higher level of discipline in the development community. We have gotten much better at
evaluating patches and identifying those which are applicable to released kernels. Additionally, some kernels are
receiving stable updates for relatively long periods of time. For example, 2.6.32 is still supported by a number of
distributors, so it continues to receive updates.
A number of changes were made to the management of stable updates in 2011. Most kernel releases will now
receive updates for two cycles, after which they will not be supported. Occasional kernels will be selected for
longer-term maintenance, though.
Linux Kernel Development: How Fast it is Going, Who is Doing It, What They are Doing, and Who is Sponsoring It 5
7. The embedded community has developed a plan to select one kernel each year and maintain it for two years
thereafter; the 3.0 release will be the first to be maintained in this manner. See ‘The embedded long term
support initiative’ for more information on this effort.
In summary, the stable update series continues to prove its value by allowing the final fixes to be made to released
kernels while simultaneously letting mainline development move forward.
Kernel Source Size
The Linux kernel keeps growing in size over time as more hardware is supported and new features are added. For
the following numbers, we have counted everything in the released Linux source package as “source code” even
though a small percentage of the total is the scripts used to configure and build the kernel, as well as a minor
amount of documentation. Those files, too, are part of the larger work, and thus merit being counted.
The information in the following table shows the number of files and lines in each kernel version.
Kernel Version Files Lines
2.6.11 17,090 6,624,076
2.6.12 17,360 6,777,860
2.6.13 18,090 6,988,800
2.6.14 18,434 7,143,233
2.6.15 18,811 7,290,070
2.6.16 19,251 7,480,062
2.6.17 19,553 7,588,014
2.6.18 20,208 7,752,846
2.6.19 20,936 7,976,221
2.6.20 21,280 8,102,533
2.6.21 21,614 8,246,517
2.6.22 22,411 8,499,410
2.6.23 22,530 8,566,606
2.6.24 23,062 8,859,683
2.6.25 23,813 9,232,592
2.6.26 24,273 9,411,841
2.6.27 24,356 9,630,074
2.6.28 25,276 10,118,757
2.6.29 26,702 10,934,554
2.6.30 27,911 11,560,971
2.6.31 29,143 11,970,124
2.6.32 30,504 12,532,677
2.6.33 31,584 12,912,684
2.6.34 32,316 13,243,582
2.6.35 33,335 13,468,253
2.6.36 34,317 13,422,037
2.6.37 36,189 13,919,579
2.6.38 36,868 14,211,814
2.6.39 36,713 14,537,764
3.0 36,788 14,651,135
3.1 37,095 14,776,002
3.2 37,626 15,004,006
Since the first version of this paper, the kernel has grown by over 8 million lines of code - 1.5 million since the
2010 update. The kernel has, in fact, grown steadily since its first release - a mere 10,000 lines of code - came out
in 1991. The one exception is 2.6.36, which is the only kernel release ever that was smaller than its predecessor.
The reduction in size was the result of the clean up of a lot of default configuration files. Despite an ongoing effort
to eliminate duplicated code and generally clean up the kernel tree, we are unlikely to see the source base shrink
again anytime soon.
Linux Kernel Development: How Fast it is Going, Who is Doing It, What They are Doing, and Who is Sponsoring It 6
8. Who is Doing the Work
The number of different developers who are doing Linux kernel development and the identifiable companies who
are sponsoring this work have been increasing over the different kernel versions, as can be seen in the following
table. In fact, the individual development community has doubled in the last three years.
Kernel Version Number of Developers Number of Known Companies
2.6.11 389 68
2.6.12 566 90
2.6.13 545 94
2.6.14 553 90
2.6.15 612 108
2.6.16 709 111
2.6.17 726 120
2.6.18 815 133
2.6.19 801 128
2.6.20 673 138
2.6.21 767 143
2.6.22 870 180
2.6.23 912 181
2.6.24 1,057 193
2.6.25 1,123 232
2.6.26 1,027 203
2.6.27 1,021 187
2.6.28 1,075 212
2.6.29 1,180 233
2.6.30 1,150 249
2.6.31 1,166 227
2.6.32 1,248 261
2.6.33 1,196 238
2.6.34 1,150 243
2.6.35 1,187 209
2.6.36 1,176 207
2.6.37 1,276 221
2.6.38 1,198 220
2.6.39 1,258 239
3.0 1,131 331
3.1 1,168 212
3.2 1,316 226
All 7,944 855
These numbers show a steady increase in the number of developers contributing to each kernel release over a
period of several years.
Despite the large number of individual developers, there is still a relatively small number who are doing the majority
of the work. In any given development cycle, approximately 1/3 of the developers involved contribute exactly one
patch. Over the past 5.5 years, the top 10 individual developers have contributed 9% of the total changes and
the top 30 developers have contributed just over 20% of the total. The list of individual developers, the number of
changes they have contributed, and the percentage of the overall total can be seen here:
Name Number of Changes Percent of Changes
David S. Miller 3,258 1.2%
Al Viro 2,840 1.1%
Takashi Iwai 2,637 1.0%
Ingo Molnar 2,348 0.9%
Tejun Heo 2,235 0.9%
Linux Kernel Development: How Fast it is Going, Who is Doing It, What They are Doing, and Who is Sponsoring It 7
9. Name Number of Changes Percent of Changes
Thomas Gleixner 2,190 0.8%
Paul Mundt 2,093 0.8%
Russell King 2,083 0.8%
Bartlomiej Zolnierkiewicz 2,074 0.8%
Adrian Bunk 2,042 0.8%
Stephen Hemminger 1,918 0.7%
Johannes Berg 1,915 0.7%
Greg Kroah-Hartman 1,899 0.7%
Mauro Carvalho Chehab 1,879 0.7%
Mark Brown 1,781 0.7%
Ralf Baechle 1,735 0.7%
Christoph Hellwig 1,716 0.7%
Alan Cox 1,703 0.6%
Andrew Morton 1,638 0.6%
Randy Dunlap 1,546 0.6%
Jean Delvare 1,467 0.6%
Joe Perches 1,456 0.6%
Hans Verkuil 1,307 0.5%
Ben Dooks 1,299 0.5%
Trond Myklebust 1,277 0.5%
Patrick McHardy 1,253 0.5%
Eric Dumazet 1,251 0.5%
Peter Zijlstra 1,237 0.5%
Neil Brown 1,182 0.5%
Mike Frysinger 1,163 0.4%
The above numbers are drawn from the entire git repository history, starting with 2.6.12. If we look at the commits
since the last version of this paper (2.6.35) through 3.2, the picture is similar but not identical:
Name Number of Changes Percent of Changes
Mark Brown 887 1.3%
Thomas Gleixner 798 1.1%
Joe Perches 683 1.0%
Chris Wilson 639 0.9%
David S. Miller 636 0.9%
Axel Lin 632 0.9%
Eric Dumazet 614 0.9%
K. Y. Srinivasan 599 0.8%
Johannes Berg 581 0.8%
Al Viro 575 0.8%
Tejun Heo 537 0.8%
Ben Skeggs 536 0.8%
Dan Carpenter 519 0.7%
Takashi Iwai 517 0.7%
Mauro Carvalho Chehab 499 0.7%
Russell King 494 0.7%
Christoph Hellwig 450 0.6%
Jonathan Cameron 439 0.6%
Alex Deucher 422 0.6%
Larry Finger 391 0.6%
Felix Fietkau 382 0.6%
Roland Vossen 377 0.5%
Uwe Kleine-König 356 0.5%
Linux Kernel Development: How Fast it is Going, Who is Doing It, What They are Doing, and Who is Sponsoring It 8
10. Name Number of Changes Percent of Changes
Arend van Spriel 355 0.5%
Wey-Yi Guy 352 0.5%
Greg Kroah-Hartman 340 0.5%
Guennadi Liakhovetski 336 0.5%
Vasiliy Kulikov 325 0.5%
Randy Dunlap 324 0.5%
Hans Verkuil 308 0.4%
It is amusing to note that Linus Torvalds (1,113 total changes, 231 since 2.6.35) does not appear in either top-30
list. Linus remains an active and crucial part of the development process; his contribution cannot be measured just
by the number of changes made. We are seeing a similar pattern with a number of other senior kernel developers;
as they put more time into the review and management of patches from others, they write fewer patches of
their own. (Obscure technical detail: these numbers do not count “merge commits,” where one set of changes
is merged into another. Linus Torvalds generates large numbers of merge commits; had these been counted he
would have shown up on these lists.)
Who is Sponsoring the Work
The Linux kernel is a resource which is used by a large variety of companies. Many of those companies never
participate in the development of the kernel; they are content with the software as it is and do not feel the need to
help drive its development in any particular direction. But, as can be seen in the table below, an increasing number
of companies are working toward the improvement of the kernel.
Below we look more closely at the companies that are employing kernel developers. For each developer,
corporate affiliation was obtained through one or more of: (1) the use of company email addresses, (2) sponsorship
information included in the code they submit, or (3) simply asking the developers directly. The numbers presented
are necessarily approximate; developers occasionally change employers, and they may do personal work out of
the office. But they will be close enough to support a number of conclusions.
There are a number of developers for whom we were unable to determine a corporate affiliation; those are grouped
under “unknown” in the table below. With few exceptions, all of the people in this category have contributed ten or
fewer changes to the kernel over the past three years, yet the large number of these developers causes their total
contribution to be quite high.
The category “none” represents developers who are known to be doing this work on their own, with no financial
contribution happening from any company.
The top 10 contributors, including the groups “unknown” and “none” make up over 60% of the total contributions
to the kernel. It is worth noting that, even if one assumes that all of the “unknown” contributors were working on
their own time, over 75% of all kernel development is demonstrably done by developers who are being paid for
their work.
Company Name Number of Changes Percent of Total
None 46,982 17.9%
Red Hat 31,261 11.9%
Novell 16,738 6.4%
Intel 16,219 6.2%
IBM 16,073 6.1%
Unknown 13,342 5.1%
Consultant 7,986 3.0%
Oracle 5,542 2.1%
Academia 3,421 1.3%
Nokia 3,272 1.2%
Linux Kernel Development: How Fast it is Going, Who is Doing It, What They are Doing, and Who is Sponsoring It 9
11. Company Name Number of Changes Percent of Total
Fujitsu 3,156 1.2%
Texas Instruments 2,982 1.1%
Broadcom 2,916 1.1%
Linux Foundation 2,890 1.1%
Google 2,620 1.0%
Analog Devices 2,595 1.0%
SGI 2,578 1.0%
AMD 2,510 1.0%
Parallels 2,419 0.9%
Freescale 2,265 0.9%
Cisco 2,259 0.9%
HP 2,158 0.8%
Renesas Technology 2,092 0.8%
MontaVista 2,019 0.8%
Atheros Communications 1,960 0.7%
Wolfson Microelectronics 1,952 0.7%
Marvell 1,752 0.7%
NetApp 1,746 0.7%
Linutronix 1,656 0.6%
Samsung 1,650 0.6%
What we see here is that a small number of companies are responsible for a large portion of the total changes to
the kernel. But there is a “long tail” of companies (over 700 of which do not appear in the above list) that have
made significant changes. There may be no other examples of such a large, common resource being supported
by such a large group of independent actors in such a collaborative way.
The picture since 2.6.36 shows some interesting changes:
Company Name Number of Changes Percent of Total
None 11,413 16.2%
Red Hat 7,563 10.7%
Intel 5,075 7.2%
Novell 3,050 3.3%
Unknown 2,998 4.3%
IBM 2,638 3.7%
Texas Instruments 2,124 3.0%
Consultant 1,859 2.6%
Broadcom 1,780 2.5%
Nokia 1,367 1.9%
Samsung 1,195 1.7%
Oracle 1,102 1.6%
Google 1,054 1.5%
Wolfson Microelectronics 1,005 1.4%
AMD 980 1.4%
Academia 882 1.3%
Fujitsu 854 1.2%
Pengutronix 733 1.0%
Linux Kernel Development: How Fast it is Going, Who is Doing It, What They are Doing, and Who is Sponsoring It 10
12. Company Name Number of Changes Percent of Total
Atheros Communications 726 1.0%
Freescale 712 1.0%
Microsoft 688 1.0%
ST Ericsson 663 0.9%
Wind River 645 0.9%
MiTAC 632 0.9%
Soc. Francaise de Radiotelephone 614 0.9%
Analog Devices 611 0.9%
tglx PITA 591 0.8%
Linaro 527 0.7%
QLogic 526 0.7%
Marvell 465 0.7%
The companies at the top of the listing are almost the same, and Red Hat maintains its commanding lead here.
However, there is an interesting trend to be seen in the following plot:
25
IBM
Intel
Red Hat
Samsung
Novell
20 Texas Instruments
Volunteers
15
10
5
0
2.6.21 2.6.22 2.6.23 2.6.24 2.6.25 2.6.26 2.6.27 2.6.28 2.6.29 2.6.30 2.6.31 2.6.32 2.6.33 2.6.34 2.6.35 2.6.36 2.6.37 2.6.38 2.6.39 3.0 3.1 3.2
This plot shows the percentage of changesets contributed by a number of the most active companies since the
2.6.20 release in 2007. The level of contribution is approximately equal for most of these companies over this time
period - meaning that, as the pace of kernel development has increased, they have increased their contributions
accordingly.
Linux Kernel Development: How Fast it is Going, Who is Doing It, What They are Doing, and Who is Sponsoring It 11
13. The highlighted traces at the bottom, though, show a different trend. They correspond to the contributions from
Samsung and Texas Instruments, both of which are prominent mobile and embedded companies. In recent years,
the level of participation from this sector has been growing rapidly. It is worth noting that these companies are not
only adding more hardware support to the kernel, they are also taking more responsibility for the advancement of
core kernel areas like the scheduler and memory management.
Who is Reviewing the Work
Patches do not normally pass directly into the mainline kernel; instead, they pass through one of over 100
subsystem trees. Each subsystem tree is dedicated to a specific part of the kernel (examples might be SCSI
drivers, x86 architecture code, or networking) and is under the control of a specific maintainer. When a subsystem
maintainer accepts a patch into a subsystem tree, he or she will attach a “Signed-off-by” line to it. This line is a
statement that the patch can be legally incorporated into the kernel; the sequence of signoff lines can be used to
establish the path by which each change got into the kernel.
An interesting (if approximate) view of kernel development can be had by looking at signoff lines, and, in particular,
at signoff lines added by developers who are not the original authors of the patches in question. These additional
signoffs are usually an indication of review by a subsystem maintainer. Analysis of signoff lines gives a picture of
who admits code into the kernel - who the gatekeepers are.
Since 2.6.35, the developers who added the most non-author signoff lines are:
Name Signoff Lines Percent of Total
Greg Kroah-Hartman 7,848 5.8%
David S. Miller 6,246 4.6%
John W. Linville 4,146 3.1%
Linus Torvalds 3,266 2.4%
Mauro Carvalho Chehab 3,253 2.4%
Andrew Morton 2,687 2.0%
Mark Brown 2,131 1.6%
James Bottomley 1,609 1.2%
Takashi Iwai 1,282 0.9%
Russell King 1,245 0.9%
Ingo Molnar 1,216 0.9%
Thomas Gleixner 1,088 0.8%
Paul Mundt 1,029 0.8%
Dave Airlie 1,003 0.7%
Chris Wilson 944 0.7%
Al Viro 915 0.7%
Kukjun Kim 818 0.6%
Wey-Yi Guy 787 0.6%
Avi Kivity 762 0.6%
Artem Bityutskiy 761 0.6%
From this table, we see that Linus Torvalds directly merges just over 2% of the total patch stream; everything else
comes in by way of the subsystem maintainers.
Associating signoffs with employers yields the following:
Company Name Signoff Lines Percent of Total
Red Hat 26,225 37.7%
Novell 13,722 13.4%
None 13,587 9.2%
Linux Kernel Development: How Fast it is Going, Who is Doing It, What They are Doing, and Who is Sponsoring It 12
14. Company Name Signoff Lines Percent of Total
Intel 9,876 6.6%
IBM 4,801 4.8%
Google 4,057 3.5%
Texas Instruments 3,744 2.4%
Linux Foundation 3,270 1.8%
Unknown 3,161 1.4%
Consultant 2,899 1.3%
Samsung 2,463 1.1%
Wolfson Microelectronics 2,250 1.1%
Broadcom 2,198 1.1%
Microsoft 2,174 1.1%
Nokia 2,108 0.9%
Oracle 1,817 0.9%
Pengutronix 1,420 0.9%
Wind River 1,285 0.7%
Academia 1,126 0.5%
AMD 1,101 0.5%
The signoff metric is a loose indication of review, so the above numbers need to be regarded as approximations
only. Still, one can clearly see that subsystem maintainers are rather more concentrated than kernel developers
as a whole; over half of the patches going into the kernel pass through the hands of developers employed by just
three companies.
Conclusion
The Linux kernel is one of the largest and most successful open source projects that has ever come about. The
huge rate of change and number of individual contributors show that it has a vibrant and active community,
constantly causing the evolution of the kernel in response to the number of different environments it is used in.
This rate of change continues to increase, as does the number of developers and companies involved in the
process; thus far, the development process has proved that it is able to scale up to higher speeds without trouble.
There are enough companies participating to fund the bulk of the development effort, even if many companies
that could benefit from contributing to Linux have, thus far, chosen not to. With the current expansion of Linux in
the server, desktop and embedded markets, it’s reasonable to expect that this number of contributing companies
– and individual developers – will continue to increase. The kernel development community welcomes new
developers; individuals or corporations interested in contributing to the Linux kernel are encouraged to consult
“How to Participate in the Linux Kernel Community” or to contact the authors of this paper or The Linux
Foundation for more information.
Thanks
The authors would like to thank the thousands of individual kernel contributors, because without them, papers like
this would not be interesting to anyone.
Resources
Many of the statistics in this article were generated by the “gitdm” tool, written by Jonathan Corbet. Gitdm is
distributable under the GNU GPL; it can be obtained from git://git.lwn.net/gitdm.git.
The information for this paper was retrieved directly from the Linux kernel releases as found at the kernel.org web
site and from the git kernel repository. Some of the logs from the git repository were cleaned up by hand due
to email addresses changing over time, and minor typos in authorship information. A spreadsheet was used to
compute a number of the statistics. All of the logs, scripts, and spreadsheet can be found at https://github.com/
gregkh/kernel-history.
Linux Kernel Development: How Fast it is Going, Who is Doing It, What They are Doing, and Who is Sponsoring It 13
15. The Linux Foundation promotes, protects and
advances Linux by providing unified resources
and services needed for open source to successfully
compete with closed platforms.
To learn more about The Linux Foundation,
and our other initiatives please visit us at
http://www.linuxfoundation.org/.