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==Implementations== {{sticky header}} {{mw-datatable}} {{sort-under}} {| class="wikitable sortable mw-datatable sort-under mw-collapsible sticky-header" style="font-size: 85%;" |- style="vertical-align: top;" ! Name (codename) ! Model ! abbr="Frequency" | Frequency (MHz) ! abbr="Architecture" | Arch. version ! Year ! abbr="Threads" | Total threads<ref group="note" name=threads>Threads per core Γ number of cores</ref> ! abbr="Process" | Process (nm) ! abbr="Transistors" | Transistors (millions) ! abbr="Size" | Die size (mm<sup>2</sup>) ! IO pins ! abbr="Power" | Power (W) ! abbr="Voltage" | Voltage (V) ! abbr="Data cache" | L1 Dcache (KB) ! abbr="Instruction cache" | L1 Icache (KB) ! abbr="L2 Cache" | L2 cache (KB) ! abbr="L3 Cache" | L3 cache (KB) |- ![[MB86900|SPARC MB86900]] |[[Fujitsu]]<ref name="cpushack">{{cite web |title=Fujitsu to take ARM into the realm of Super |url=https://www.cpushack.com/2016/06/21/fujitsu-to-take-arm-into-the-realm-of-super/ |website=The CPU Shack Museum |date=June 21, 2016 |access-date=30 June 2019 |archive-date=June 30, 2019 |archive-url=https://web.archive.org/web/20190630094926/http://www.cpushack.com/2016/06/21/fujitsu-to-take-arm-into-the-realm-of-super/ |url-status=live }}</ref><ref name="cpu-collection">{{cite web |title=Fujitsu SPARC |url=http://www.cpu-collection.de/?tn=0&l0=cl&l1=SPARC&l2=Fujitsu |website=cpu-collection.de |access-date=30 June 2019 |archive-date=August 6, 2016 |archive-url=https://web.archive.org/web/20160806032335/http://www.cpu-collection.de/?tn=0&l0=cl&l1=SPARC&l2=Fujitsu |url-status=live }}</ref><ref name="timeline">{{cite web |title=Timeline |url=https://sparc.org/timeline/ |website=SPARC International |access-date=30 June 2019 |archive-date=April 24, 2019 |archive-url=https://web.archive.org/web/20190424043743/http://sparc.org/timeline/ |url-status=live }}</ref> |14.28–33||V7||1986||1Γ1=1||1300||0.11||{{n/a}}||256||{{n/a}}||{{n/a}}||colspan="2"|0–128 (unified)||{{CNone|none}}||{{CNone|none}} |- !SPARC |Various<ref group="note">Various SPARC V7 implementations were produced by Fujitsu, [[LSI Logic]], Weitek, Texas Instruments, Cypress and Temic. A SPARC V7 processor generally consisted of several discrete chips, usually comprising an integer unit (IU), a [[floating-point unit]] (FPU), a [[memory management unit]] (MMU) and cache memory. Conversely, the Atmel (now Microchip Technology) TSC695 is a single-chip SPARC V7 implementation.</ref> |14.28–40||V7||1989β1992||1Γ1=1||800–1300||~0.1–1.8||{{n/a}}||160–256||{{n/a}}||{{n/a}}||colspan="2"|0–128 (unified)||{{CNone|none}}||{{CNone|none}} |- !MN10501 (KAP) |[[Solbourne Computer]], Matsushita<ref>{{Cite web|url=https://www.floodgap.com/retrobits/solace/|title=Floodgap Retrobits presents the Solbourne Solace: a shrine to the forgotten SPARC|website=www.floodgap.com|access-date=2020-01-14|archive-date=December 1, 2020|archive-url=https://web.archive.org/web/20201201003135/http://www.floodgap.com/retrobits/solace/|url-status=live}}</ref> |33β36 |V8 |1990β1991 |1x1=1 |{{n/a}} |1.0<ref>{{Cite conference|last1=Sager|first1=D.|last2=Hinton|first2=G.|last3=Upton|first3=M.|last4=Chappell|first4=T.|last5=Fletcher|first5=T.D.|last6=Samaan|first6=S.|last7=Murray|first7=R.|book-title=2001 IEEE International Solid-State Circuits Conference. Digest of Technical Papers. ISSCC (Cat. No.01CH37177) |title=A 0.18 ΞΌm CMOS IA32 microprocessor with a 4 GHZ integer execution unit |date=2001|location=San Francisco, CA, USA|publisher=IEEE|pages=324β325|doi=10.1109/ISSCC.2001.912658|isbn=978-0-7803-6608-4}}</ref> |{{n/a}} |{{n/a}} |{{n/a}} |{{n/a}} |8 |8 |0β256 |{{CNone|none}} |- ![[microSPARC]] I (Tsunami) |TI TMS390S10 |40–50||V8||1992||1Γ1=1||800||0.8||225?||288||2.5||5||2||4||{{CNone|none}}||{{CNone|none}} |- ![[SuperSPARC]] I (Viking) |TI TMX390Z50 / Sun STP1020 |33–60||V8||1992||1Γ1=1||800||3.1||{{n/a}}||293||14.3||5||16||20||0β2048||{{CNone|none}} |- ![[SPARClite]] |Fujitsu MB8683x |66–108||V8E||1992||1Γ1=1||{{n/a}}||{{n/a}}||{{n/a}}||144, 176||{{n/a}}||2.5/3.3β5.0 V, 2.5β3.3 V||1, 2, 8, 16||1, 2, 8, 16||{{CNone|none}}||{{CNone|none}} |- ![[hyperSPARC]] (Colorado 1) |Ross RT620A |40–90||V8||1993||1Γ1=1||500||1.5||{{n/a}}||{{n/a}}||{{n/a}}||5?||0||8||128β256||{{CNone|none}} |- !microSPARC II (Swift) |Fujitsu MB86904 / Sun STP1012 |60–125||V8||1994||1Γ1=1||500||2.3||233||321||5||3.3||8||16||{{CNone|none}}||{{CNone|none}} |- !hyperSPARC (Colorado 2) |Ross RT620B |90–125||V8||1994||1Γ1=1||400||1.5||{{n/a}}||{{n/a}}||{{n/a}}||3.3||0||8||128β256||{{CNone|none}} |- !SuperSPARC II (Voyager) |Sun STP1021 |75–90||V8||1994||1Γ1=1||800||3.1||299||{{n/a}}||16||{{n/a}}||16||20||1024β2048||{{CNone|none}} |- !hyperSPARC (Colorado 3) |Ross RT620C |125–166||V8||1995||1Γ1=1||350||1.5||{{n/a}}||{{n/a}}||{{n/a}}||3.3||0||8||512β1024||{{CNone|none}} |- ![[TurboSPARC]] |Fujitsu MB86907 |160–180||V8||1996||1Γ1=1||350||3.0||132||416||7||3.5||16||16||512||{{CNone|none}} |- ![[UltraSPARC]] (Spitfire) |Sun STP1030 |143–167||V9||1995||1Γ1=1||470||3.8||315||521||30<ref group="note">@167 MHz</ref>||3.3||16||16||512β1024||{{CNone|none}} |- !UltraSPARC (Hornet) |Sun STP1030 |200||V9||1995||1Γ1=1||420||5.2||265||521||{{n/a}}||3.3||16||16||512β1024||{{CNone|none}} |- !hyperSPARC (Colorado 4) |Ross RT620D |180–200||V8||1996||1Γ1=1||350||1.7||{{n/a}}||{{n/a}}||{{n/a}}||3.3||16||16||512||{{CNone|none}} |- ![[HAL SPARC64|SPARC64]] |Fujitsu (HAL) |101–118||V9||1995||1Γ1=1||400||{{n/a}}||Multichip||286||50||3.8||128||128||{{n/a}}||{{n/a}} |- ![[HAL SPARC64#SPARC64 II|SPARC64 II]] |Fujitsu (HAL) |141–161||V9||1996||1Γ1=1||350||{{n/a}}||Multichip||286||64||3.3||128||128||{{n/a}}||{{n/a}} |- ![[HAL SPARC64#SPARC64 GP|SPARC64 III]] |Fujitsu (HAL) MBCS70301 |250–330||V9||1998||1Γ1=1||240||17.6||240||{{n/a}}||{{n/a}}||2.5||64||64||8192||{{n/a}} |- ![[UltraSPARC II]]s (Blackbird) |Sun STP1031 |250–400||V9||1997||1Γ1=1||350||5.4||149||521||25<ref group="note">@250 MHz</ref>||2.5||16||16||1024 or 4096||{{CNone|none}} |- !UltraSPARC IIs (Sapphire-Black) |Sun STP1032 / STP1034 |360–480||V9||1999||1Γ1=1||250||5.4||126||521||21<ref group="note">@400 MHz</ref>||1.9||16||16||1024–8192||{{CNone|none}} |- ![[UltraSPARC IIi]] (Sabre) |Sun SME1040 |270–360||V9||1997||1Γ1=1||350||5.4||156||587||21||1.9||16||16||256–2048||{{CNone|none}} |- !UltraSPARC IIi (Sapphire-Red) |Sun SME1430 |333–480||V9||1998||1Γ1=1||250||5.4||{{n/a}}||587||21<ref group="note">@440 MHz</ref>||1.9||16||16||2048||{{CNone|none}} |- ![[UltraSPARC IIe]] (Hummingbird) |Sun SME1701 |400–500||V9||1999||1Γ1=1||180 Al||{{n/a}}||{{n/a}}||370||13<ref group="note">max. @500 MHz</ref>||1.5β1.7||16||16||256||{{CNone|none}} |- !UltraSPARC IIi (IIe+) (Phantom) |Sun SME1532 |550–650||V9||2000||1Γ1=1||180 Cu||{{n/a}}||{{n/a}}||370||17.6||1.7||16||16||512||{{CNone|none}} |- ![[HAL SPARC64#SPARC64 GP|SPARC64 GP]] |Fujitsu SFCB81147 |400–563||V9||2000||1Γ1=1||180||30.2||217||{{n/a}}||{{n/a}}||1.8||128||128||8192||{{n/a}} |- ![[HAL SPARC64#SPARC64 GP|SPARC64 GP]] | -- |600–810||V9||{{n/a}}||1Γ1=1||150||30.2||{{n/a}}||{{n/a}}||{{n/a}}||1.5||128||128||8192||{{n/a}} |- !SPARC64 IV |Fujitsu MBCS80523 |450–810||V9||2000||1Γ1=1||130||{{n/a}}||{{n/a}}||{{n/a}}||{{n/a}}||{{n/a}}||128||128||2048||{{n/a}} |- ![[UltraSPARC III]] (Cheetah) |Sun SME1050 |600||JPS1||2001||1Γ1=1||180 Al||29||330||1368||53||1.6||64||32||8192||{{CNone|none}} |- !UltraSPARC III (Cheetah) |Sun SME1052 |750–900||JPS1||2001||1Γ1=1||130 Al||29||{{n/a}}||1368||{{n/a}}||1.6||64||32||8192||{{CNone|none}} |- !UltraSPARC III Cu (Cheetah+) |Sun SME1056 |900–1200||JPS1||2001||1Γ1=1||130 Cu||29||232||1368||50<ref group="note">@1200 MHz</ref>||1.6||64||32||8192||{{CNone|none}} |- ![[UltraSPARC IIIi]] (JalapeΓ±o) |Sun SME1603 |1064–1593||JPS1||2003||1Γ1=1||130||87.5||206||959||52||1.3||64||32||1024||{{CNone|none}} |- ![[SPARC64 V]] (Zeus) |Fujitsu ||1100–1350||JPS1||2003||1Γ1=1||130||190||289||269||40||1.2||128||128||2048||{{n/a}} |- ![[SPARC64 V#SPARC64 V+|SPARC64 V+]] (Olympus-B) |Fujitsu ||1650–2160||JPS1||2004||1Γ1=1||90||400||297||279||65||1||128||128||4096||{{n/a}} |- ![[UltraSPARC IV]] (Jaguar) |Sun SME1167 |1050–1350||JPS2||2004||1Γ2=2||130||66||356||1368||108||1.35||64||32||16384||{{CNone|none}} |- ![[UltraSPARC IV+]] (Panther) |Sun SME1167A |1500–2100||JPS2||2005||1Γ2=2||90||295||336||1368||90||1.1||64||64||2048||32768 |- ![[UltraSPARC T1]] (Niagara) |Sun SME1905 |1000–1400||UA2005||2005||4Γ8=32||90||300||340||1933||72||1.3||8||16||3072||{{CNone|none}} |- ![[SPARC64 VI]] (Olympus-C) | Fujitsu |2150–2400||JPS2||2007||2Γ2=4||90||540||422||{{n/a}}||120–150||1.1||128Γ2||128Γ2||4096–6144||{{CNone|none}} |- ![[UltraSPARC T2]] (Niagara 2) |Sun SME1908A |1000–1600||UA2007||2007||8Γ8=64||65||503||342||1831||95||1.1–1.5||8||16||4096||{{CNone|none}} |- !UltraSPARC T2 Plus (Victoria Falls) |Sun SME1910A |1200–1600||UA2007|| 2008 ||8Γ8=64||65||503||342||1831||{{n/a}}||{{n/a}}||8||16||4096||{{CNone|none}} |- ![[SPARC64 VII]] (Jupiter)<ref name="fujitsu-fx1-promo" /> |Fujitsu |2400–2880||JPS2||2008||2Γ4=8||65||600||445||{{n/a}}||150||{{n/a}}||64Γ4||64Γ4||6144||{{CNone|none}} |- !UltraSPARC "RK" ([[Rock (processor)|Rock]])<ref name="sun-rock-whitepaper" /> |Sun SME1832 |2300||{{dunno}}???||canceled<ref name="nytimes-rock-canceled" />||2Γ16=32||65||{{dunno}}||396||2326||{{dunno}}||{{dunno}}||32||32||2048||{{dunno}} |- ![[SPARC64 VIIIfx]] (Venus)<ref name="heise-fujitsu-s64vii" /><ref name="inquirer-fujitsu-fastest" /> |Fujitsu |2000||JPS2 / HPC-ACE||2009||1Γ8=8||45||760||513||1271||58||{{dunno}}||32Γ8||32Γ8||6144||{{CNone|none}} |- ![[LEON|LEON2FT]] |Atmel AT697F |100||V8||2009||1Γ1=1||180||{{n/a}}||{{n/a}}||196||1||1.8/3.3||16||32||{{n/a}}||{{n/a}}|none |- ![[SPARC T3]] (Rainbow Falls) |Oracle/Sun |1650||UA2007|| 2010 ||8Γ16=128||40<ref name="oracle-t3-whitepaper" />||{{dunno}}??? ||371||{{dunno}}||139||{{dunno}}||8||16||6144||{{CNone|none}} |- ![[FeiTeng|Galaxy FT-1500]] |[[National University of Defense Technology|NUDT]] (China) |1800||UA2007?|| 201? ||8Γ16=128||40||{{dunno}}???||{{dunno}}??||{{dunno}}||65||{{dunno}}||16Γ16||16Γ16||512Γ16||4096 |- ![[SPARC64 VII+]] (Jupiter-E <small>''or''</small> M3)<ref name="register-t4-next-year" /><ref name="fujitsu-m-whitepaper" /> |Fujitsu |2667β3000||JPS2|| 2010 ||2Γ4=8||65||{{n/a}}||{{n/a}}||{{n/a}}||160||{{n/a}}||64Γ4||64Γ4||12288||{{CNone|none}} |- ![[LEON|LEON3FT]] |[[Cobham plc|Cobham Gaisler]] GR712RC |100||V8E|| 2011 ||1Γ2=2||180||{{n/a}}||{{n/a}}||{{n/a}}||1.5<ref group="note">excluding I/O buses</ref>||1.8/3.3||4x4Kb||4x4Kb||{{CNone|none}}||{{CNone|none}} |- ![[MCST-R1000|R1000]] |[[Moscow Center of SPARC Technologies|MCST]] (Russia) |1000||JPS2|| 2011 ||1Γ4=4||90||180||128||{{n/a}}||15||1, 1.8, 2.5||32||16||2048||{{CNone|none}} |- ![[SPARC T4]] (Yosemite Falls)<ref name="register-oracle-t4" /> |Oracle |2850β3000||OSA2011|| 2011 ||8Γ8=64||40||855||403||{{dunno}}||240||{{dunno}}||16Γ8||16Γ8||128Γ8||4096 |- ![[SPARC64 VI#SPARC64 IXfx|SPARC64 IXfx]]<ref name="fujitsu-s64ixfx" /><ref name="fujitsu-fx10-launch" /><ref>{{cite web|url=https://www.fujitsu.com/downloads/TC/sc11/sparc64-ixfx-sc11.pdf|title=Ixfx Download|publisher=fujitsu.com|access-date=May 17, 2015|archive-date=May 18, 2015|archive-url=https://web.archive.org/web/20150518120540/http://www.fujitsu.com/downloads/TC/sc11/sparc64-ixfx-sc11.pdf|url-status=live}}</ref> |Fujitsu |1850||JPS2 / HPC-ACE||2012||1x16=16||40||1870||484||1442||110||{{dunno}}||32Γ16||32Γ16||12288||{{CNone|none}} |- ![[SPARC64 X]] (Athena)<ref>{{cite web|url=https://www.fujitsu.com/global/Images/HC25.27.910-SPARC64.pdf|title=Images of SPARC64|publisher=fujitsu.com|access-date=August 29, 2017|archive-date=April 22, 2016|archive-url=https://web.archive.org/web/20160422083227/https://www.fujitsu.com/global/Images/HC25.27.910-SPARC64.pdf|url-status=live}}</ref> |Fujitsu |2800||OSA2011 / HPC-ACE||2012||2Γ16=32||28||2950||587.5||1500||270||{{dunno}}||64Γ16||64Γ16||24576||{{CNone|none}} |- ![[SPARC T5]] |Oracle |3600||OSA2011|| 2013 ||8Γ16=128||28||1500||478||{{dunno}}||{{dunno}}||{{dunno}}||16Γ16||16Γ16||128Γ16||8192 |- !SPARC M5<ref>{{cite web|url=https://www.oracle.com/us/products/servers-storage/servers/sparc/oracle-sparc/m5-32/m5-processor-ds-1922646.pdf|title=Oracle Products|publisher=oracle.com|access-date=August 29, 2017|archive-date=March 8, 2017|archive-url=https://web.archive.org/web/20170308224648/http://www.oracle.com/us/products/servers-storage/servers/sparc/oracle-sparc/m5-32/m5-processor-ds-1922646.pdf|url-status=live}}</ref> |Oracle |3600||OSA2011|| 2013 ||8Γ6=48||28||3900||511||{{dunno}}||{{dunno}}||{{dunno}}||16Γ6||16Γ6||128Γ6||49152 |- !SPARC M6<ref>{{cite web|url=https://www.oracle.com/us/products/servers-storage/servers/sparc/oracle-sparc/m6-32/sparc-m6-processor-ds-2015586.pdf|title=Oracle SPARC products|publisher=oracle.com|access-date=August 29, 2017|archive-date=September 26, 2018|archive-url=https://web.archive.org/web/20180926012640/http://www.oracle.com/us/products/servers-storage/servers/sparc/oracle-sparc/m6-32/sparc-m6-processor-ds-2015586.pdf|url-status=live}}</ref> |Oracle |3600||OSA2011|| 2013 ||8Γ12=96||28||4270||643||{{dunno}}||{{dunno}}||{{dunno}}||16Γ12||16Γ12||128Γ12||49152 |- ![[SPARC64 X+]] (Athena+)<ref>{{cite web|url=https://www.fujitsu.com/global/Images/HotChips24_Fujitsu_presentation.pdf|title=Fujitsu Presentation pdf|publisher=fujitsu.com|access-date=August 29, 2017|archive-date=April 22, 2016|archive-url=https://web.archive.org/web/20160422083242/https://www.fujitsu.com/global/Images/HotChips24_Fujitsu_presentation.pdf|url-status=live}}</ref> |Fujitsu |3200β3700||OSA2011 / HPC-ACE||2014||2Γ16=32||28||2990||600||1500||392||{{dunno}}||64Γ16||64Γ16||24M||{{CNone|none}} |- ![[SPARC64 VI#SPARC64 XIfx|SPARC64 XIfx]]<ref>{{cite web|url=https://www.fujitsu.com/global/Images/20140811hotchips26.pdf|title=Fujitsu Global Images|publisher=fujitsu.com|access-date=August 29, 2017|url-status=dead|archive-url=https://web.archive.org/web/20150518120521/http://www.fujitsu.com/global/Images/20140811hotchips26.pdf|archive-date=May 18, 2015|df=mdy-all}}</ref> |Fujitsu |2200||JPS2 / HPC-ACE2||2014||1Γ(32+2)=34||20||3750||{{dunno}}||1001||{{dunno}}||{{dunno}}||64Γ34||64Γ34||12MΓ2||{{CNone|none}} |- ![[SPARC M7]]<ref>{{cite web|url=https://swisdev.oracle.com/_files/M7_Preso.pdf|title=M7: Next Generation SPARC. Hotchips 26|publisher=swisdev.oracle.com|access-date=August 12, 2014|archive-date=October 31, 2014|archive-url=https://web.archive.org/web/20141031195402/https://swisdev.oracle.com/_files/M7_Preso.pdf|url-status=live}}</ref><ref>{{cite web|url=https://www.oracle.com/technetwork/server-storage/sun-sparc-enterprise/documentation/sparc-t7-m7-server-architecture-2702877.pdf|title=Oracle's SPARC T7 and SPARC M7 Server Architecture|publisher=oracle.com|access-date=October 10, 2015|archive-date=November 6, 2015|archive-url=https://web.archive.org/web/20151106053601/http://www.oracle.com/technetwork/server-storage/sun-sparc-enterprise/documentation/sparc-t7-m7-server-architecture-2702877.pdf|url-status=live}}</ref> |Oracle |4133||OSA2015||2015||8Γ32=256||20||>10,000||{{dunno}}||{{dunno}}||{{dunno}}||{{dunno}}||16Γ32||16Γ32||256Γ24||65536 |- !SPARC S7<ref>{{cite web|url=https://old.hotchips.org/wp-content/uploads/hc_archives/hc27/HC27.24-Monday-Epub/HC27.24.30-HP-Cloud-Comm-Epub/HC27.24.330-sonoma.Vinalk-oracle-v3.pdf |archive-url=https://ghostarchive.org/archive/20221009/https://old.hotchips.org/wp-content/uploads/hc_archives/hc27/HC27.24-Monday-Epub/HC27.24.30-HP-Cloud-Comm-Epub/HC27.24.330-sonoma.Vinalk-oracle-v3.pdf |archive-date=2022-10-09 |url-status=live|title=Hot Chips β August 23β25, 2015 β Conf. Day1 β Oracle's Sonoma Processor: Advanced low-cost SPARC processor for enterprise workloads|first1=Basant|last1=Vinaik|first2=Rahoul|last2=Puri|date=August 24, 2015|publisher=hotchips.org|access-date=January 25, 2022}}</ref><ref>{{cite web|url=https://www.theregister.co.uk/2015/08/24/oracle_sonoma_processor_sparc/?page=1|title=Blueprints revealed: Oracle crams Sparc M7 and InfiniBand into cheaper 'Sonoma' chips|publisher=theregister.co.uk|access-date=August 29, 2017|archive-date=August 29, 2017|archive-url=https://web.archive.org/web/20170829121821/http://www.theregister.co.uk/2015/08/24/oracle_sonoma_processor_sparc/?page=1|url-status=live}}</ref> |Oracle |4270||OSA2015||2016||8Γ8=64||20||{{dunno}}???||{{dunno}}||{{dunno}}||{{dunno}}||{{dunno}}||16Γ8||16Γ8||256Γ2+256Γ4||16384 |- !SPARC64 XII<ref>{{cite web|url=https://www.fujitsu.com/jp/documents/products/computing/servers/unix/sparc/events/2017/coolchips20/CoolChips20-rev8.pdf|title=Documents at Fujitsu|publisher=fujitsu.com|access-date=August 29, 2017|archive-date=August 29, 2017|archive-url=https://web.archive.org/web/20170829121542/http://www.fujitsu.com/jp/documents/products/computing/servers/unix/sparc/events/2017/coolchips20/CoolChips20-rev8.pdf|url-status=live}}</ref> |Fujitsu |4250||OSA201? / HPC-ACE||2017||8Γ12=96||20||5500||795||1860||{{dunno}}||{{dunno}}||64Γ12||64Γ12||512Γ12||32768 |- ![[SPARC M8]]<ref>{{cite web|url=https://www.oracle.com/corporate/pressrelease/oracle-sparc-m8-091817.html|title=Oracle's New SPARC Systems Deliver 2-7x Better Performance, Security Capabilities, and Efficiency than Intel-based Systems|publisher=oracle.com|access-date=September 18, 2017|archive-date=September 18, 2017|archive-url=https://web.archive.org/web/20170918151550/https://www.oracle.com/corporate/pressrelease/oracle-sparc-m8-091817.html|url-status=live}}</ref><ref>{{cite web|url=https://www.oracle.com/us/products/servers-storage/sparc-m8-processor-ds-3864282.pdf|title=SPARC M8 Processor|publisher=oracle.com|access-date=September 18, 2017|archive-date=February 28, 2019|archive-url=https://web.archive.org/web/20190228101811/http://www.oracle.com/us/products/servers-storage/sparc-m8-processor-ds-3864282.pdf|url-status=live}}</ref> |Oracle |5000||OSA2017||2017||8Γ32=256||20||{{dunno}}||{{dunno}}||{{dunno}}||{{dunno}}||{{dunno}}||32Γ32||16Γ32||128Γ32+256Γ8||65536 |- ![[LEON|LEON4]] |[[Cobham plc|Cobham Gaisler]] GR740 |250<ref group="note">nominal; specification from 100 to 424 MHz depending on attached RAM capabilities</ref>||V8E|| 2017 ||1Γ4=4||32||{{n/a}}||{{n/a}}||{{n/a}}||{{n/a}}||1.2/2.5/3.3||4x4||4x4||2048||{{CNone|none}} |- ![[MCST-R2000|R2000]] |[[Moscow Center of SPARC Technologies|MCST]] (Russia) |2000|| {{dunno}} || 2018 ||1Γ8=8||28||500|| {{dunno}} ||{{n/a}}||{{dunno}}||{{dunno}}||{{dunno}}||{{dunno}}||{{dunno}}||{{CNone|none}} |- ![[LEON|LEON5]] |[[Cobham plc|Cobham Gaisler]] |{{n/a}}||V8E|| 2019 ||{{dunno}}||{{dunno}}||{{n/a}}||{{n/a}}||{{n/a}}||{{n/a}}||{{n/a}}||{{dunno}}||{{dunno}}||16β8192||{{CNone|none}} |- ! Name (codename) ! Model ! abbr="Frequency" | Frequency (MHz) ! abbr="Architecture" | Arch. version ! Year ! abbr="Threads" | Total threads<ref group="note" name=threads/> ! abbr="Process" | Process (nm) ! abbr="Transistors" | Transistors (millions) ! abbr="Size" | Die size (mm<sup>2</sup>) ! IO pins ! abbr="Power" | Power (W) ! abbr="Voltage" | Voltage (V) ! abbr="Data cache" | L1 Dcache (KB) ! abbr="Instruction cache" | L1 Icache (KB) ! abbr="L2 Cache" | L2 cache (KB) ! abbr="L3 Cache" | L3 cache (KB) |} '''Notes''': {{Reflist|group="note"}}
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