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* {{official website|http://bellard.org/}}
* {{official website|http://bellard.org/}}
* [http://blog.smartbear.com/careers/fabrice-bellard-portrait-of-a-super-productive-programmer/ "Portrait of a Super-Productive Programmer"]
* [http://blog.smartbear.com/careers/fabrice-bellard-portrait-of-a-super-productive-programmer/ "Portrait of a Super-Productive Programmer"]
* [http://www.freearchive.org/o/55dfc9935a719fc36ab1d16567972732c2db1fd7d7e3826fd73ee07e4c3c7d0b ACM Journal Article]
* [https://web.archive.org/web/20110726063943/http://www.freearchive.org/o/55dfc9935a719fc36ab1d16567972732c2db1fd7d7e3826fd73ee07e4c3c7d0b ACM Journal Article]


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{{DEFAULTSORT:Bellard, Fabrice}}

Revision as of 09:03, 27 September 2017

Fabrice Bellard
Born1972 (age 51–52)
Known forQEMU, FFmpeg, Tiny C Compiler, Bellard's formula
Websitebellard.org

Fabrice Bellard (French pronunciation: [faˈbʁis bɛˈlaʁ]) is a computer programmer who is best known as the creator of the FFmpeg and QEMU software projects. He has also developed a number of other programs, including the Tiny C Compiler.

Life and career

Bellard was born in 1972 in Grenoble, France and went to school in Lycée Joffre (Montpellier), where, at age 17, he created the executable compressor LZEXE.[1] After studying at École Polytechnique, he went on to specialize at Télécom Paris in 1996.

In 1997, he discovered a new, faster formula to calculate single digits of pi in binary representation, known as Bellard's formula. It is a variant of the Bailey–Borwein–Plouffe formula.

Bellard's entries won the International Obfuscated C Code Contest twice.[2] In 2000, he won in the category "Most Specific Output"[3] for a program that implemented the modular Fast Fourier Transform and used it to compute the then biggest known prime number, 26972593−1;[4] and in 2001, he won in the category "Best Abuse of the Rules" for a tiny compiler (the source code being only 3 kB in size) of a strict subset of the C language for i386 Linux. The program itself is written in this language subset, i.e. it is self-hosting.

In 2004, he wrote the TinyCC Boot Loader, which can compile and boot a Linux kernel from source in less than 15 seconds.[5] In 2005, he designed a system that could act as an Analog or DVB-T Digital TV transmitter by directly generating a VHF signal from a standard PC and VGA card.[6] In 2011, he created a minimal PC emulator written in pure JavaScript. The emulated hardware consists of a 32-bit x86 compatible CPU, a 8259 Programmable Interrupt Controller, a 8254 Programmable Interrupt Timer, and a 16450 UART.[7]

On 31 December 2009 he claimed the world record for calculations of pi, having calculated it to nearly 2.7 trillion places in 90 days. Slashdot wrote: "While the improvement may seem small, it is an outstanding achievement because only a single desktop PC, costing less than US$3,000, was used—instead of a multi-million dollar supercomputer as in the previous records."[8][9] On 2 August 2010 this record was eclipsed by Shigeru Kondo who computed 5 trillion digits, although this was done using a server-class machine running dual Intel Xeon processors, equipped with 96 GB of RAM.

In 2011 he won a Google–O'Reilly Open Source Award.[10]

In 2014 he proposed the BPG image format as a replacement for JPEG.[11]

See also

References

  1. ^ LZEXE project page
  2. ^ International Obfuscated C Code Contest years page
  3. ^ http://www0.us.ioccc.org/years.html#2000
  4. ^ http://www0.us.ioccc.org/2000/bellard.hint
  5. ^ "TCCBOOT Compiles And Boots Linux In 15 Seconds". Slashdot. 2004-10-25.
  6. ^ "Digital TV Transmitter using a VGA card". Slashdot. 2005-06-13.
  7. ^ "Javascript PC Emulator – Technical Notes". Fabrice Bellard. 2011-05-14.
  8. ^ New Pi Computation Record Using a Desktop PC January 5, 2010
  9. ^ Jason Palmer (2010-01-06). "Pi calculated to 'record number' of digits". BBC News.
  10. ^ "OSCON 2011: O'Reilly Open Source Awards". Retrieved 2011-09-17.
  11. ^ "BPG Image format". Fabrice Bellard. 2014. Retrieved 2014-06-12.