AMD EPYC™ 7003 Series CPUs Set New Standard as Highest Performance Server Processor

ꟷ New AMD EPYC pro­ces­sor extends per socket per­for­mance lea­ders­hip and best per core per­for­mance1** with new “Zen 3” cores and modern secu­ri­ty featuresꟷ

ꟷPart­ners inclu­ding AWS, Cis­co, Dell Tech­no­lo­gies, Goog­le Cloud, HPE, Leno­vo, Micro­soft Azu­re, Ora­cle Cloud Infra­st­ruc­tu­re, Super­mi­cro, Ten­cent Cloud and others grow EPYC pro­ces­sor eco­sys­tem to an expec­ted 400 cloud instan­ces and 100 new OEM plat­forms by end of 2021ꟷ

SANTA CLARA, Calif., March 15, 2021 (GLOBE NEWSWIRE) — At a digi­tal event, AMD (NASDAQ: AMD) announ­ced the new AMD EPYC™ 7003 Seri­es CPUs, which inclu­des the AMD EPYC 7763, the world’s hig­hest-per­forming ser­ver pro­ces­sor2*. The new EPYC 7003 seri­es pro­ces­sors help HPC, cloud and enter­pri­se cus­to­mers do more, fas­ter, by deli­vering the best per­for­mance of any ser­ver CPU with up to 19% more inst­ruc­tions per clock3.

With the launch of our 3rd Gen AMD EPYC pro­ces­sors, we are incredi­b­ly exci­ted to deli­ver the fas­test ser­ver CPU in the world. The­se pro­ces­sors extend our data cen­ter lea­ders­hip and help cus­to­mers sol­ve today’s most com­plex IT chal­len­ges, while sub­stan­ti­al­ly gro­wing our eco­sys­tem,” said For­rest Nor­rod, seni­or vice pre­si­dent and gene­ral mana­ger, Data Cen­ter and Embed­ded Solu­ti­ons Busi­ness Group. “We not only dou­ble the per­for­mance over the com­pe­ti­ti­on in HPC, cloud and enter­pri­se workloads with our newest ser­ver CPUs, but tog­e­ther with the AMD Instinct GPUs, we are brea­king the exas­ca­le bar­ri­er in super­com­pu­ting and hel­ping to tack­le pro­blems that have pre­vious­ly been bey­ond humanity’s reach.”

AMD EPYC Pro­ces­sors, Powe­ring the Modern Data Center

Avail­ab­le immedia­te­ly, AMD EPYC 7003 Seri­es Pro­ces­sors have up to 64 “Zen 3” cores per pro­ces­sor and intro­du­ce new levels of per-core cache memo­ry, while con­ti­nuing to offer the PCIe® 4 con­nec­ti­vi­ty and class-lea­ding memo­ry band­width4 that defi­ned the EPYC 7002 seri­es CPUs. 3rd Gen AMD EPYC pro­ces­sors also inclu­de modern secu­ri­ty fea­tures through AMD Infi­ni­ty Guard, sup­por­ting a new fea­ture cal­led Secu­re Encryp­ted Vir­tua­liz­a­ti­on-Secu­re Nes­ted Paging (SEV-SNP). SEV-SNP expands the exis­ting SEV fea­tures on EPYC pro­ces­sors, adding strong memo­ry inte­gri­ty pro­tec­tion capa­bi­li­ties to help pre­vent mali­cious hyper­vi­sor-based attacks by crea­ting an iso­la­ted exe­cu­ti­on envi­ron­ment. You can read more about new 3rd Gen AMD EPYC fea­tures here.

All the­se fea­tures and capa­bi­li­ties com­bi­ne to help dri­ve fas­ter time to results and impro­ve busi­ness out­co­mes for HPC, cloud and enter­pri­se customers.

  • For HPC cus­to­mers that demand the most through­put com­pu­ting capa­bi­li­ties to do more simu­la­ti­ons in a given time peri­od, or use big­ger data sets or more com­plex models, AMD EPYC 7003 Seri­es pro­ces­sors enab­le fas­ter time to dis­co­very with more I/O5 and memo­ry through­put, and power­ful “Zen 3” cores that deli­ver up to twice the per­for­mance for HPC workloads com­pa­red to the com­pe­ti­ti­on6.
  • For cloud pro­vi­ders who need com­pu­te den­si­ty and secu­ri­ty capa­bi­li­ties, AMD EPYC 7003 Seri­es pro­ces­sors offer the hig­hest core den­si­ty7, advan­ced secu­ri­ty fea­tures and up to twice the inte­ger per­for­mance com­pa­red to the com­pe­ti­ti­on8.
  • For the enter­pri­se, whe­re per­for­mance and time to value are cri­ti­cal to sup­port the new “work from any­whe­re” envi­ron­mentAMD EPYC 7003 Seri­es pro­ces­sors help impro­ve effi­ci­en­cy, and deli­ver value and per­for­mance. The new pro­ces­sors incre­a­se tran­sac­tio­n­al data­ba­se pro­ces­sing by up to 19%9, impro­ve Hado­op big data ana­ly­tic sorts by up to 60% with 61% bet­ter pri­ce to per­for­mance than the com­pe­ti­ti­on10, and offer supe­ri­or per­for­mance for fle­xi­ble Hyper­con­ver­ged Infra­st­ruc­tu­re — all of which help CIOs turn data into action­ab­le insights faster.

Part­ners Using AMD EPYC 7003 Seri­es Processors

The AMD EPYC pro­ces­sor eco­sys­tem is expec­ted to grow signi­fi­cant­ly by the end of 2021 with more than 400 cloud instan­ces using all genera­ti­ons of EPYC pro­ces­sors and 100 new ser­ver plat­forms using 3rd Gen EPYC pro­ces­sors. AMD EPYC 7003 Seri­es pro­ces­sor-based solu­ti­ons are avail­ab­le now through nume­rous OEMs, ODMs, cloud pro­vi­ders and chan­nel part­ners around the world.

  • AWS – will add the AMD EPYC 7003 seri­es pro­ces­sors to its core Ama­zon EC2 instance fami­lies later this year.
  • Cis­co – intro­du­ced new Cis­co Uni­fied Com­pu­ting Sys­tem™ (Cis­co UCS®) rack ser­ver models with AMD EPYC 7003 Seri­es Pro­ces­sors desi­gned to sup­port modern hybrid cloud workloads.
  • Dell Tech­no­lo­gies – announ­ced the all new PowerEdge XE8545 ser­ver with AMD EPYC 7003 seri­es CPUs, and the com­pa­ny will sup­port the new pro­ces­sors wit­hin its PowerEdge ser­ver portfolio.
  • Goog­le Cloud – announ­ced AMD EPYC 7003 seri­es pro­ces­sors will power a new com­pu­te opti­mi­zed VM, C2D, and an expan­si­on of the exis­ting gene­ral pur­po­se N2D VM later this year. Goog­le Cloud Con­fi­den­ti­al Com­pu­ting will be avail­ab­le on both C2D and N2D.
  • HPE – announ­ced it will dou­ble the lin­eup of AMD EPYC pro­ces­sor powe­red solu­ti­ons, using the AMD EPYC 7003 seri­es pro­ces­sors in new HPE Pro­Li­ant ser­vers, HPE Apol­lo sys­tems and HPE Cray EX super­com­pu­ters.
  • Leno­vo – added ten Leno­vo Think­Sys­tem Ser­vers and Thin­kA­gi­le HCI solu­ti­ons built on 3rd Gen EPYC pro­ces­sors, and achie­ved more than 25 new world records across a broad set of indus­try-stan­dard bench­marks in workload areas.
  • Micro­soft Azu­re  announ­ced mul­ti­ple new vir­tu­al machi­ne offe­rings powe­red by AMD EPYC 7003 seri­es pro­ces­sors. Azu­re HBv3 vir­tu­al machi­nes for HPC app­li­ca­ti­ons are gene­ral­ly avail­ab­le today, and Con­fi­den­ti­al Com­pu­ting vir­tu­al machi­nes that uti­li­ze the full secu­ri­ty fea­tures of the new AMD EPYC 7003 seri­es pro­ces­sors are in pri­va­te preview.
  • Ora­cle Cloud Infra­st­ruc­tu­re – announ­ced it is exten­ding its fle­xi­ble vir­tu­al machi­ne and bare metal com­pu­te offe­rings with the new E4 plat­form based on 3rd Genera­ti­on AMD EPYC Processors.
  • Super­mi­cro – intro­du­ced the AMD EPYC 7003 seri­es pro­ces­sor in its Super­mi­cro A+ sin­gle and dual socket fami­ly of Ultra, Twin, Super­Blade®, Sto­rage and GPU Opti­mi­zed Systems.
  • Ten­cent Cloud – announ­ced the new Ten­cent Cloud SA3 ser­ver instance, powe­red by the 3rd Gen AMD EPYC processors.
  • VMware – announ­ced its latest release of VMware vSphe­re 7 which is opti­mi­zed to take advan­ta­ge of AMD EPYC pro­ces­sors vir­tua­liz­a­ti­on per­for­mance, while sup­por­ting the pro­ces­sors’ advan­ced secu­ri­ty fea­tures, inclu­ding SEV-ES for both vir­tu­al machi­ne based and con­tai­ne­ri­zed applications.

You can visit the 3rd Gen AMD EPYC pro­ces­sor launch page to view more con­tent from the­se and other part­ners about how they will uti­li­ze the lea­ders­hip per­for­mance and capa­bi­li­ties of the new AMD EPYC 7003 seri­es pro­ces­sors. You can also visit the AMD EPYC part­ner quo­te page, to see glo­bal part­ner sup­port of the processors.

AMD EPYC 7003 Seri­es Pro­ces­sor SKU Table

Model # Cores Threads Base
Max Boost
Freq (u
p to
TDP (w)
Freq (1DPC)
PCIe®4 1Ku
7763 64 128 2.45 3.50 280 225 280 256 8 3200 x128 $7,890
7713 64 128 2.00 3.675 225 225 240 256 8 3200 X128 $7,060
7713P 64 128 2.00 3.675 225 225 240 256 8 3200 X128 $5,010
7663 56 112 2.00 3.50 240 225 240 256 8 3200 x128 $6,366
7643 48 96 2.30 3.60 225 225 240 256 8 3200 x128 $4,995
75F3 32 64 2.95 4.00 280 225 280 256 8 3200 x 128 $4,860
7543 32 64 2.80 3.70 225 225 240 256 8 3200 x128 $3,761
7543P 32 64 2.80 3.70 225 225 240 256 8 3200 X128 $2,730
7513 32 64 2.60 3.65 200 165 200 128 8 3200 x128 $2,840
7453 28 56 2.75 3.45 225 225 240 64 8 3200 x128 $1,570
74F3 24 48 3.20 4.00 240 225 240 256 8 3200 x128 $2,900
7443 24 48 2.85 4.00 200 165 200 128 8 3200 x128 $2,010
7443P 24 48 2.85 4.00 200 165 200 128 8 3200 X128 $1,337
7413 24 48 2.65 3.60 180 165 200 128 8 3200 X128 $1,825
73F3 16 32 3.50 4.00 240 225 240 256 8 3200 x128 $3,521
7343 16 32 3.20 3.90 190 165 200 128 8 3200 x128 $1,565
7313 16 32 3.00 3.70 155 155 180 128 8 3200 X128 $1,083
7313P 16 32 3.00 3.70 155 155 180 128 8 3200 X128 $913
72F3 8 16 3.70 4.10 180 165 200 256 8 3200 x128 $2,468

Sup­por­ting Resources

About AMD
For more than 50 years AMD has dri­ven inno­va­ti­on in high-per­for­mance com­pu­ting, gra­phics and visua­liz­a­ti­on tech­no­lo­gies ― the buil­ding blocks for gaming, immer­si­ve plat­forms and the data cen­ter. Hund­reds of mil­li­ons of con­su­mers, lea­ding For­tu­ne 500 busi­nes­ses and cut­ting-edge sci­en­ti­fic rese­arch faci­li­ties around the world rely on AMD tech­no­lo­gy dai­ly to impro­ve how they live, work and play. AMD employees around the world are focu­sed on buil­ding gre­at pro­ducts that push the bounda­ries of what is pos­si­ble. For more infor­ma­ti­on about how AMD is enab­ling today and inspi­ring tomor­row, visit the AMD (NASDAQ: AMDweb­siteblogFace­book and Twit­ter pages.

This press release con­tains for­ward-loo­king state­ments con­cer­ning Advan­ced Micro Devices, Inc. (AMD) such as the fea­tures, func­tio­n­a­li­ty, per­for­mance, avai­la­bi­li­ty, timing and expec­ted bene­fits of AMD pro­ducts inclu­ding the AMD EPYC™ 7003 Seri­es pro­ces­sors and expec­ted eco­sys­tem part­ners and pro­ducts, which are made pur­suant to the Safe Har­bor pro­vi­si­ons of the Pri­va­te Secu­ri­ties Liti­ga­ti­on Reform Act of 1995. For­ward-loo­king state­ments are com­mon­ly iden­ti­fied by words such as “would,” “may,” “expects,” “belie­ves,” “plans,” “intends,” “pro­jects” and other terms with simi­lar mea­ning. Inves­tors are cau­tio­ned that the for­ward-loo­king state­ments in this press release are based on cur­rent beliefs, assump­ti­ons and expec­ta­ti­ons, speak only as of the date of this press release and invol­ve risks and uncer­tain­ties that could cau­se actu­al results to dif­fer mate­ri­al­ly from cur­rent expec­ta­ti­ons. Such state­ments are sub­ject to cer­tain known and unknown risks and uncer­tain­ties, many of which are dif­fi­cult to pre­dict and gene­ral­ly bey­ond AMD’s con­trol, that could cau­se actu­al results and other future events to dif­fer mate­ri­al­ly from tho­se expres­sed in, or implied or pro­jec­ted by, the for­ward-loo­king infor­ma­ti­on and state­ments. Mate­ri­al fac­tors that could cau­se actu­al results to dif­fer mate­ri­al­ly from cur­rent expec­ta­ti­ons inclu­de, without limi­ta­ti­on, the fol­lowing: Intel Corporation’s domi­nan­ce of the micro­pro­ces­sor mar­ket and its aggres­si­ve busi­ness prac­ti­ces; glo­bal eco­no­mic uncer­tain­ty; the loss of a signi­fi­cant cus­to­mer; the impact of the COVID-19 pan­de­mic on AMD’s busi­ness, finan­cial con­di­ti­on and results of ope­ra­ti­ons; the com­pe­ti­ti­ve mar­kets in which AMD’s pro­ducts are sold; quar­ter­ly and sea­so­nal sales pat­terns; mar­ket con­di­ti­ons of the indus­tries in which AMD pro­ducts are sold; the cycli­cal natu­re of the semi­con­duc­tor indus­try; AMD’s abi­li­ty to ade­qua­te­ly pro­tect its tech­no­lo­gy or other intel­lec­tu­al pro­per­ty; unfa­vor­able cur­ren­cy exchan­ge rate fluc­tua­tions; the abi­li­ty of third par­ty manu­fac­tu­rers to manu­fac­tu­re AMD’s pro­ducts on a time­ly basis in suf­fi­ci­ent quan­ti­ties and using com­pe­ti­ti­ve tech­no­lo­gies; expec­ted manu­fac­tu­ring yiel­ds for AMD’s pro­ducts; the avai­la­bi­li­ty of essen­ti­al equip­ment, mate­ri­als or manu­fac­tu­ring pro­ces­ses; AMD’s abi­li­ty to intro­du­ce pro­ducts on a time­ly basis with fea­tures and per­for­mance levels that pro­vi­de value to its cus­to­mers; AMD’s abi­li­ty to gene­ra­te reve­nue from its semi-cus­tom SoC pro­ducts; poten­ti­al secu­ri­ty vul­nera­bi­li­ties; poten­ti­al IT outa­ges, data loss, data breaches and cyber-attacks; uncer­tain­ties invol­ving the orde­ring and ship­ment of AMD’s pro­ducts; AMD’s reli­an­ce on third-par­ty intel­lec­tu­al pro­per­ty to design and intro­du­ce new pro­ducts in a time­ly man­ner; AMD’s reli­an­ce on third-par­ty com­pa­nies for the design, manu­fac­tu­re and sup­ply of mother­boards, soft­ware and other com­pu­ter plat­form com­pon­ents; AMD’s reli­an­ce on Micro­soft Cor­po­ra­ti­on and other soft­ware ven­dors’ sup­port to design and deve­lop soft­ware to run on AMD’s pro­ducts; AMD’s reli­an­ce on third-par­ty dis­tri­bu­tors and add-in-board part­ners; the impact of modi­fi­ca­ti­on or inter­rup­ti­on of AMD’s inter­nal busi­ness pro­ces­ses and infor­ma­ti­on sys­tems; com­pa­ti­bi­li­ty of AMD’s pro­ducts with some or all indus­try-stan­dard soft­ware and hard­ware; cos­ts rela­ted to defec­ti­ve pro­ducts; the effi­ci­en­cy of AMD’s sup­ply chain; AMD’s abi­li­ty to rely on third par­ty sup­ply-chain logistics func­tions; AMD’s abi­li­ty to effec­tively con­trol the sales of its pro­ducts on the gray mar­ket; the impact of government actions and regu­la­ti­ons such as export admi­nis­tra­ti­on regu­la­ti­ons, tariffs and tra­de pro­tec­tion mea­su­res; AMD’s abi­li­ty to rea­li­ze its defer­red tax assets; poten­ti­al tax lia­bi­li­ties; cur­rent and future claims and liti­ga­ti­on; the impact of envi­ron­men­tal laws, con­flict mine­rals-rela­ted pro­vi­si­ons and other laws or regu­la­ti­ons; the impact of acqui­si­ti­ons, joint ven­tures and/or invest­ments on AMD’s busi­ness, inclu­ding the announ­ced acqui­si­ti­on of Xilinx, and the fail­u­re to inte­gra­te acqui­red busi­nes­ses; AMD’s abi­li­ty to com­ple­te the Xilinx mer­ger; the impact of the announ­ce­ment and pen­den­cy of the Xilinx mer­ger on AMD’s busi­ness; the impact of any impairment of the com­bi­ned company’s assets on the com­bi­ned company’s finan­cial posi­ti­on and results of ope­ra­ti­on; the restric­tions impo­sed by agree­ments gover­ning AMD’s notes and the revol­ving credit faci­li­ty; the poten­ti­al dilu­ti­ve effect if the 2.125% Con­ver­ti­ble Seni­or Notes due 2026 are con­ver­ted; AMD’s indeb­ted­ness; AMD’s abi­li­ty to gene­ra­te suf­fi­ci­ent cash to ser­vice its debt obli­ga­ti­ons or meet its working capi­tal requi­re­ments; AMD’s abi­li­ty to repurcha­se its out­stan­ding debt in the event of a chan­ge of con­trol; AMD’s abi­li­ty to gene­ra­te suf­fi­ci­ent reve­nue and ope­ra­ting cash flow or obtain exter­nal finan­cing for rese­arch and deve­lo­p­ment or other stra­te­gic invest­ments; poli­ti­cal, legal, eco­no­mic risks and natu­ral dis­as­ters; future impairments of good­will and tech­no­lo­gy licen­se purcha­ses; AMD’s abi­li­ty to attract and retain qua­li­fied per­son­nel; AMD’s stock pri­ce vola­ti­li­ty; and world­wi­de poli­ti­cal con­di­ti­ons. Inves­tors are urged to review in detail the risks and uncer­tain­ties in AMD’s Secu­ri­ties and Exchan­ge Com­mis­si­on filings, inclu­ding but not limi­ted to AMD’s most recent reports on Forms 10‑K and 10‑Q.

AMD, the AMD Arrow logo, EPYC, Instinct, and com­bi­na­ti­ons the­re­of are trade­marks of Advan­ced Micro Devices, Inc.
VMware and vSphe­re are regis­tered trade­marks or trade­marks of VMware, Inc. in the United Sta­tes and other jurisdictions.

*AMD EPYC 7763

 MLN-057K: Based on SPECrate®2017_int_base on 02/20/2021, a ser­ver powe­red by two 8c AMD EPYC 72F3 CPU has a mea­su­red esti­ma­ted score of 176 with a per core score of 11.00 which is a hig­her per core per­for­mance score than any cur­r­ent­ly pos­ted in any publi­ca­ti­on. SPEC®, SPE­Cra­te® and SPEC CPU® are regis­tered trade­marks of the Stan­dard Per­for­mance Eva­lua­ti­on Cor­po­ra­ti­on. See for more information.
2 MLN-016: Results as of 01/28/2021 using SPECrate®2017_int_base. The AMD EPYC 7763 a mea­su­red esti­ma­ted score of 798 is hig­her than the cur­rent hig­hest 2P ser­ver with an AMD EPYC 7H12 and a score of 717,–22554.pdf. OEM publis­hed score(s) for 3rd Gen EPYC may vary. SPEC®, SPE­Cra­te® and SPEC CPU® are regis­tered trade­marks of the Stan­dard Per­for­mance Eva­lua­ti­on Cor­po­ra­ti­on. See for more information.
3 MLN-003: Based on AMD inter­nal tes­ting as of 02/1/2021, average per­for­mance impro­ve­ment at ISO-fre­quen­cy on an AMD EPYC72F3 (8C/8T, 3.7GHz) com­pa­red to an AMD EPYC7F32 (8C/8T, 3.7GHz), per-core, sin­gle thread, using a select set of workloads inclu­ding SPECrate®2017_int_base, SPECrate®2017_fp_base, and repre­sen­ta­ti­ve ser­ver workloads. SPEC® and SPE­Cra­te® are regis­tered trade­marks of Stan­dard Per­for­mance Eva­lua­ti­on Cor­po­ra­ti­on. Learn more at
4 MLN-056: Each AMD EPYC 7003 pro­ces­sor has 8 memo­ry chan­nels. Each Intel Xeon Scala­b­le pro­ces­sor has 6 memo­ry chan­nels. 8 – 6 = 2 ÷ 6 = 0.33 AMD EPYC has 33% more memo­ry band­width. Class based on indus­try-stan­dard pin-based (LGA) X86 processors.
5 MLN-055: AMD EPYC 7003 CPUs with PCIe4 lanes have 2X the I/O through­put capa­ci­ty per lane than any Intel Xeon Scala­b­le CPU which use PCIe3. PCIe4 pro­vi­des 16GB/s of link band­width ver­sus PCIe3 with 8Gb/s,
6MLN-074K: Based on SPECrate®2017_fp_base on 02/20/2021, a ser­ver powe­red by two 64c AMD EPYC 7763 CPUs has a score of 636 a com­pli­ant result run on an Think­Sys­tem SR665; with Memo­ry: 512 GB (16 x 32 GB 2Rx4 PC4-3200AA‑R); OS: Red Hat Enter­pri­se Linux release 8.3 (Oot­pa); Com­pi­ler: C/C++/Fortran: Ver­si­on 3.0.0 of AOCC. Ver­sus the cur­rent hig­hest score Intel Cas­ca­de Lake Refresh ser­ver with a score of 309 with a 2P Intel Gold 6258R based ser­ver,–23979.pdf. SPEC®, SPE­Cra­te® and SPEC CPU® are regis­tered trade­marks of the Stan­dard Per­for­mance Eva­lua­ti­on Cor­po­ra­ti­on. See for more information.
7 EPYC-10: AMD EPYC has up to 64c/128t and Intel Scala­b­le has up to 56c/112t, per processor.
8 MLN-073K: Based on SPECrate®2017_int_base on 02/20/2021, a ser­ver powe­red by two 64c AMD EPYC 7763 CPUs has a score of 819 in a com­pli­ant result run on an Think­Sys­tem SR645; with Memo­ry: 2 TB (32 x 64 GB 2Rx4 PC4-3200AA‑R), OS: SUSE Linux Enter­pri­se Ser­ver 12 SP5 (x86_64) Ker­nel 4.12.14–120-default; Com­pi­ler: C/C++/Fortran: Ver­si­on 3.0.0 of AOCC. Ver­sus the cur­rent hig­hest score Intel Cas­ca­de Lake Refresh ser­ver with a score of 397 using 2P Intel Gold 6258R,–23981.pdf. SPEC®, SPE­Cra­te® and SPEC CPU® are regis­tered trade­marks of the Stan­dard Per­for­mance Eva­lua­ti­on Cor­po­ra­ti­on. See for more information.
9MLN-006: Ham­m­erDB 4.0 OLTP com­pa­ri­son based on AMD inter­nal tes­ting on Ora­cle® 19c RDBMS as of 02/01/2021 on a ser­ver using 2x AMD EPYC 75F3 ver­sus a ser­ver using 2x AMD EPYC 7542 for ~19% more [~1.2x the] per­for­mance. TPROC‑C: OLTP workload pro­fi­le in Ham­m­erDB deri­ved, from the TPC‑C spe­ci­fi­ca­ti­on using 2000 Wareh­ouses. Results may vary.
10 MLN-069K: TPC Bench­mark Express™ HSph@3TB com­pa­ri­son based on hig­hest sys­tem results publis­hed as of 03/12/2021. Con­fi­gu­ra­ti­ons: 17-node, 1x AMD EPYC 75F3 (34.52 HSph@3TB, $35,615.50/HSph@3TB,, avail­ab­le 3/15/2021, Frame­work 1 Map­Re­du­ce) ver­sus 17-node, 2x Intel Xeon Gold 6262V (21.52 HSph@3TB, $91,276.91/HSph@3TB,, avail­ab­le 11/09/2020, Frame­work 2 Spark) for 60% hig­her [1.6x the] Hado­op Sort through­put per­for­mance at 61% bet­ter price/performance.
11 EPYC-18: Max boost for AMD EPYC pro­ces­sors is the maxi­mum fre­quen­cy achiev­a­ble by any sin­gle core on the pro­ces­sor under nor­mal ope­ra­ting con­di­ti­ons for ser­ver systems.



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