[펌] pi 계산의 역사

태그: pi 계산 파이

Table of computation of Pi from 2000 BC to 1900 AD

Name	Year	Length	Value
Babylonians	2000? BCE	1	3.125 = 3 + 1/8
Egyptians	2000? BCE	1	3.16045
China	1200? BCE	1	3
Bible (1 Kings 7:23)	550? BCE	1	3
Archimedes	250? BCE	3	3.1418 (ave.)
Hon Han Shu	130 AD	1	3.1622 = sqrt(10) ?
Ptolemy	150	3	3.14166
Chung Hing	250?	1	3.16227 = sqrt(10)
Wang Fau	250?	1	3.15555 = 142/45
Liu Hui	263	5	3.14159
Siddhanta	380	3	3.1416
Tsu Ch’ung Chi	480?	7	3.1415926
Aryabhata	499	4	3.14156
Brahmagupta	640?	1	3.162277 = sqrt(10)
Al-Khowarizmi	800	4	3.1416
Fibonacci	1220	3	3.141818
Al-Kashi	1429	14
Otho	1573	6	3.1415929
Viete	1593	9	3.1415926536 (ave.)
Romanus	1593	15
Van Ceulen	1596	20
Van Ceulen	1615	35
Newton	1665	16
Sharp	1699	71
Seki	1700?	10
Kamata	1730?	25
Machin	1706	100
De Lagny	1719	127	(112 correct)
Takebe	1723	41
Matsunaga	1739	50
Vega	1794	140
Rutherford	1824	208	(152 correct)
Strassnitzky and Dase	1844	200
Clausen	1847	248
Lehmann	1853	261
Rutherford	1853	440
Shanks	1874	707	(527 correct)

Brief history of Pi calculation with computers

Name	Year	Calculated length	Machine used
G.W. Reitwiesner etc.	1949	2,037	ENIAC
S.C. Nicholson & J. Jeenel	1954	3,092	NORC
G.E. Felton	1957	7,480	Pegasus
F. Genuys	1958	10,000	IBM 704
G.E. Felton	1958	10,020	Pegasus
J. Guilloud	1959	16,167	IBM 704
W. Shanks & T.W. Wrench Jr.	1961	100,265	IBM 7090
J. Guilloud & J. Filliatre	1966	250,000	IBM 7030
J. Guilloud & M. Dichampt	1967	500,000	CDC 6600
J. Guilloud & M. Bouyer	1973	1,001,250	CDC 7600
K. Miyoshi & Y. Kanada	1981	2,000,036	FACOM M-200
J. Guilloud	1981-82	2,000,050	not known
Y. Tamura	1982	2,097,144	MELCOM 900II
Y. Tamura & Kanada	1982	4,194,288	HITAC M-280H
Y. Tamura & Kanada	1982	8,388,576	HITAC M-280H
Y. Kanada, S. Yoshino & Y. Tamura	1983	16,777,206	HITAC M-280H
Y. Ushiro & Y. Kanada	1983/10	(*)10,013,395	HITAC S-810/20
W. Gosper	1985/10	17,526,200	Symbolics 3670
D.H. Bailey	1986/01	29,360,111	CRAY-2
Y. Kanada & Y. Tamura	1986/09	33,554,414	HITAC S-810/20
Y. Kanada & Y. Tamura	1986/10	67,108,839	HITAC S-810/20
Y. Kanada, Y. Tamura, Y. Kubo, etc.	1987/01	134,214,700	NEC SX-2
Y. Kanada & Y. Tamura	1988/01	204,326,551	HITAC S-820/80
G.V. Chudnovsky & D.V. Chudnovsky	1989/05	480,000,000	CRAY-2 & IBM-3090/VF
G.V. Chudnovsky & D.V. Chudnovsky	1989/06	535,339,270	IBM 3090
Y. Kanada & Y. Tamura	1989/07	536,870,898	HITAC S-820/80
G.V. Chudnovsky & D.V. Chudnovsky	1989/08	1,011,196,691	IBM 3090
Y. Kanada & Y. Tamura	1989/11	1,073,740,799	HITAC S-820/80
G.V. Chudnovsky & D.V. Chudnovsky	1991/08	2,260,000,000	Home made parallel computer (detail unknown. not verified.)
D. Takahashi & Y. Kanada	1995/06	3,221,220,000	HITAC S-3800/480(uses 2 CPU)
G.V. Chudnovsky & D.V. Chudnovsky	1994/05	4,044,000,000	New home made parallel computer (detail unknown. not verified.)
D. Takahashi & Y. Kanada	1995/08	4,294,960,000	HITAC S-3800/480(uses 2 CPU)
D. Takahashi & Y. Kanada	1995/09	6,442,450,000	HITAC S-3800/480(uses 2 CPU)
D. Takahashi & Y. Kanada	1997/06	51,539,600,000	HITACHI SR2201 Computer Centre, U. of Tokyo, 1024 Processors
D. Takahashi & Y. Kanada	1999/04	68,719,470,000	HITACHI SR8000 Computer Centre, U. of Tokyo, 64 of 128 CPUs
D. Takahashi & Y. Kanada	1999/09	206,158,430,000	HITACHI SR8000 Computer Centre, U. of Tokyo, 128 CPUs
Yasumasa Kanada & 9 man team	2002/09	1.2411 trillion	HITACHI supercompute, Information Technology Center, U. of Tokyo
(*) First pi record calculated with supercomputer. (for the reference.)