{"id":618471,"date":"2021-05-11T23:40:32","date_gmt":"2021-05-11T21:40:32","guid":{"rendered":"https:\/\/www.tomshardware.fr\/?p=618471"},"modified":"2023-06-22T17:15:17","modified_gmt":"2023-06-22T15:15:17","slug":"intel-lance-ses-processeurs-tiger-lake-h-a-8-et-6-coeurs","status":"publish","type":"post","link":"https:\/\/www.tomshardware.fr\/intel-lance-ses-processeurs-tiger-lake-h-a-8-et-6-coeurs\/","title":{"rendered":"Intel lance ses processeurs Tiger Lake-H \u00e0 8 et 6 c\u0153urs"},"content":{"rendered":"\n

Il y a deux semaines, Asus nous avait fix\u00e9 un rendez-vous aujourd\u2019hui avec un carton d\u2019invitation sur lequel \u00e9tait \u00e9crit “Unleash the Tiger Inside”<\/a><\/em>. L\u2019entreprise n\u2019avait pas menti, puisqu\u2019Intel a d\u00e9voil\u00e9 des processeurs Tiger Lake \u00e0 8 et 6 c\u0153urs dans la journ\u00e9e. Cette s\u00e9rie, qui compl\u00e8te la gamme Tiger Lake lanc\u00e9e en septembre<\/a> et sur laquelle \u00e9taient d\u00e9j\u00e0 venus se greffer des Tiger Lake-H35<\/a> et vPro en janvier, comprend 5 r\u00e9f\u00e9rences grand public : deux Core i9 et un Core i7, tous arm\u00e9s de 8 c\u0153urs \/ 16 threads, et deux Core i5 munis de 6 c\u0153urs \/ 12 threads. Les Core i9 et i7 poss\u00e8dent 24 Mo de cache L3 ; les Core i5, 12 Mo.<\/p>\n\n\n\n

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Comme les autres puces Tiger Lake, celles-ci sont grav\u00e9es en 10 nm SuperFin. Elles s\u2019appuient sur une microarchitecture Willow Cove qui octroie un gain d\u2019IPC annonc\u00e9 de 12 % en mono-c\u0153ur, 19 % en multic\u0153urs. Les TDP sont donn\u00e9s \u00e0 35W, hormis pour le vaisseau amiral, le Core i9-11980HK, auquel Intel a accord\u00e9 un TDP de 65 W. En pratique, les fabricants peuvent opter pour des TDP allant de 35 \u00e0 65 W (et ne sont pas tenus de le pr\u00e9ciser\u2026). <\/p>\n\n\n\n

GeForce RTX 3050 et RTX 3050 Ti mobiles : RTX et DLSS sur PC portable \u00e0 partir de 799 dollars<\/a><\/strong><\/p>\n\n\n\n

iGPU et support m\u00e9moire<\/h2>\n\n\n\n

Pour l\u2019iGPU, on retrouve une solution Gen12 Xe-LP. En revanche, le nombre d\u2019unit\u00e9s de calcul (CU) a \u00e9t\u00e9 revu \u00e0 la baisse : il est de seulement 32 alors qu\u2019il peut atteindre 96 sur les Tiger Lake-U \u00e0 4 c\u0153urs. Toutefois, l\u2019iGPU b\u00e9n\u00e9ficie de fr\u00e9quences l\u00e9g\u00e8rement plus \u00e9lev\u00e9es.<\/p>\n\n\n\n

Enfin, ces processeurs Tiger Lake conservent la prise en charge de 20 lignes PCIe 4.0 et de la m\u00e9moire DDR4-3200 en dual chanel (mais en Gear 2 \u2013 mode asynchrone \u2013, comme les processeurs Rocket Lake-S<\/a> ; le r\u00e9glage optimal Gear 1, o\u00f9 le contr\u00f4leur m\u00e9moire et la m\u00e9moire fonctionnent \u00e0 la m\u00eame fr\u00e9quence (1:1) est en DDR4-2933).<\/p>\n\n\n\n

Gamme Tiger Lake-H pour le grand public<\/h2>\n\n\n\n

Le vaisseau amiral de cette s\u00e9rie est le Core i9-11980HK. Arm\u00e9 de 8 c\u0153urs \/ 16 threads, il peut monter \u00e0 4,5 GHz sur l\u2019ensemble de ses c\u0153urs et \u00e0 5 GHz sur deux c\u0153urs. L\u2019autre Core i9 est un peu moins v\u00e9loce mais profite toujours du Turbo Boost Max 3.0, privil\u00e8ge dont sont priv\u00e9s les Core i7 et Core i5.<\/p>\n\n\n\n

Processeur<\/td>C\u0153urs \/ Threads<\/td>Fr\u00e9quence de base \u00e0 45 W<\/td>Fr\u00e9quence Turbo sur 1 c\u0153ur<\/td>Fr\u00e9quence Turbo sur tous les c\u0153urs<\/td>Cache L3<\/td>Support m\u00e9moire<\/td>Fr\u00e9quence de base \/ Max iGPU<\/td><\/tr>
Core i9-11980HK<\/td>8 \/ 16<\/td>2,6 GHz<\/td>5 GHz (TBM 3.0)<\/td>4,5 GHz<\/td>24 Mo<\/td>DDR4-2933 (Gear 1) \/ DDR4-3200 (Gear 2)<\/td>350 \/ 1450 MHz<\/td><\/tr>
Core i9-11900H<\/td>8 \/ 16<\/td>2,5 GHz<\/td>4,9 GHz (TBM 3.0)<\/td>4,4 GHz<\/td>24 Mo<\/td>DDR4-2933 (Gear 1) \/ DDR4-3200 (Gear 2)<\/td>350 \/ 1450 MHz<\/td><\/tr>
Core i7-11800H<\/td>8 \/ 16<\/td>2,3 GHz<\/td>4,6 GHz<\/td>4,2 GHz<\/td>24 Mo<\/td>DDR4-2933 (Gear 1) \/ DDR4-3200 (Gear 2)<\/td>350 \/ 1450 MHz<\/td><\/tr>
Core i5-11400H<\/td>6 \/ 12<\/td>2,7 GHz<\/td>4,5 GHz<\/td>4,1 GHz<\/td>12 Mo<\/td>2933 (Gear 1) \/ DDR4-3200 (Gear 2)<\/td>350 \/ 1450 MHz<\/td><\/tr>
Core i5-11260H<\/td>6 \/ 12<\/td>2,6 GHz<\/td>4,4 GHz<\/td>4 GHz<\/td>12 Mo<\/td>DDR4-2933 (Gear 1) \/ DDR4-3200 (Gear 2)<\/td>350 \/ 1400 MHz<\/td><\/tr><\/tbody><\/table><\/div><\/figure>\n\n\n\n
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Gamme Tiger Lake-H pour les PC professionnels<\/h2>\n\n\n\n

Intel lance \u00e9galement 5 processeurs destin\u00e9s \u00e0 des PC portables professionnels. Il y a un repr\u00e9sentant \u00e0 chaque \u00e9chelon de Core : Core i9-11950H, Core i7-11850H et Core i5-11500H. Ils se distinguent par des fr\u00e9quences l\u00e9g\u00e8rement plus \u00e9lev\u00e9es que celles des puces grand public, g\u00e9n\u00e9ralement de 100 ou 200 MHz ; la fr\u00e9quence maximale reste toutefois sur le seuil des 5 GHz. Aux Core s\u2019ajoute une paire de processeurs Xeon W, les Xeon W-11955M et Xeon W-11855M. Leur particularit\u00e9 : le support de la m\u00e9moire ECC. Ces 5 processeurs sont estampill\u00e9s Intel vPro<\/a> et SIPP<\/a> (Intel Stable IT Platform<\/em>). Ils re\u00e7oivent diverses technologies relatives \u00e0 la s\u00e9curit\u00e9 : Trusted Execution<\/a><\/em>, CET (Control-flow Enforcement Technology<\/em>) ou encore Threat Detection<\/a><\/em>.<\/p>\n\n\n\n

Processeur<\/td>C\u0153urs \/ Threads<\/td>Fr\u00e9quence de base \u00e0 45 W<\/td>Fr\u00e9quence Turbo sur 1 c\u0153ur<\/td>Fr\u00e9quence Turbo sur tous les c\u0153urs<\/td>Cache L3<\/td>Support m\u00e9moire<\/td>Fr\u00e9quence de base \/ Max iGPU<\/td><\/tr>
Xeon W-11955M<\/td>8 \/ 16<\/td>2,6 GHz<\/td>5 GHz (TBM 3.0)<\/td>4,5 GHz<\/td>24 Mo<\/td>DDR4-2933 (Gear 1) \/ DDR4-3200 (Gear 2)<\/td>350 \/ 1450 MHz<\/td><\/tr>
Core i9-11950H<\/td>8 \/ 16<\/td>2,6 GHz<\/td>5 GHz (TBM 3.0)<\/td>4,5 GHz<\/td>24 Mo<\/td>DDR4-2933 (Gear 1) \/ DDR4-3200 (Gear 2)<\/td>350 \/ 1450 MHz<\/td><\/tr>
Xeon W-11855M<\/td>6 \/ 12<\/td>3,2 GHz<\/td>4,9 GHz (TBM 3.0)<\/td>4,4 GHz<\/td>18 Mo<\/td>DDR4-2933 (Gear 1) \/ DDR4-3200 (Gear 2)<\/td>350 \/ 1450 MHz<\/td><\/tr>
Core i7-11850H<\/td>8 \/ 16<\/td>2,5 GHz<\/td>4,8 GHz<\/td>4,3 GHz<\/td>24 Mo<\/td>2933 (Gear 1) \/ DDR4-3200 (Gear 2)<\/td>350 \/ 1450 MHz<\/td><\/tr>
Core i5-11500H<\/td>6 \/ 12<\/td>2,9 GHz<\/td>4,6 GHz<\/td>4,2 GHz<\/td>12 Mo<\/td>DDR4-2933 (Gear 1) \/ DDR4-3200 (Gear 2)<\/td>350 \/ 1450 MHz<\/td><\/tr><\/tbody><\/table><\/div><\/figure>\n\n\n\n
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Performances<\/h2>\n\n\n\n

Ces processeurs Tiger Lake-H \u00e0 6 et 8 c\u0153urs permettent d\u00e9sormais \u00e0 Intel de concurrencer plus frontalement les Ryzen 5000 mobiles d\u2019AMD<\/a>. Logiquement, la firme fournit quelques benchmarks favorables \u00e0 ses troupes. Dans les jeux, les cibles sont l\u2019ancienne puce Comet Lake-H, le Core i9-10980HK, ainsi que les Ryzen 9 5900HX et Ryzen 9 5900HS. Dans les deux premiers cas, les processeurs collaborent avec une carte graphique NVIDIA GeForce RTX 3080 et dans le dernier avec une RTX 3060. En applicatif, Intel met en avant le gain g\u00e9n\u00e9rationnel et oppose son porte-\u00e9tendard, fort d’instructions AVX-512, au Ryzen 9 5900HX d’AMD.<\/p>\n\n\n\n

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Dans tous les cas, comme toujours avec ces benchmarks promotionnels, recevez-les avec une bonne dose de circonspection. Si vous souhaitez acqu\u00e9rir un PC portable, n’h\u00e9sitez pas \u00e0 vous r\u00e9f\u00e9rer \u00e0 des tests ind\u00e9pendants, id\u00e9alement ceux ciblant votre machine, les performances d\u2019un processeur ou d’une carte graphique pouvant fortement varier en fonction du PC dans lequel ils sont install\u00e9s.<\/p>\n\n\n\n

Disponibilit\u00e9<\/h2>\n\n\n\n

Intel indique que les puces Tiger Lake-H int\u00e9greront 80 nouveaux mod\u00e8les de PC portables. La plupart de ces machines sont disponibles en pr\u00e9commande d\u00e8s \u00e0 pr\u00e9sent, pour des livraisons qui d\u00e9buteront \u00e0 partir du 17 mai. Petite bravade \u00e0 destination d\u2019AMD, qui souffre de la p\u00e9nurie pour ses Ryzen 5000 mobiles depuis des mois, Intel pr\u00e9cise avoir d\u00e9j\u00e0 livr\u00e9 plus d\u2019un million de processeurs Tiger Lake-H \u00e0 ses partenaires. En outre, pour r\u00e9pondre \u00e0 la forte demande de PC portables, la soci\u00e9t\u00e9 maintient pour le moment la production de processeurs Comet Lake de 10e g\u00e9n\u00e9ration.<\/p>\n\n\n\n

\"Image<\/a><\/figure><\/div>\n","protected":false},"excerpt":{"rendered":"

10 puces au total r\u00e9parties dans deux gammes. La s\u00e9rie grand public comporte deux Core i9, un Core i7 et deux Core i5.<\/p>","protected":false},"author":87,"featured_media":618489,"comment_status":"open","ping_status":"closed","sticky":false,"template":"","format":"standard","meta":{"_acf_changed":false,"footnotes":""},"categories":[487,4070,4071],"tags":[493],"hubs":[],"class_list":["post-618471","post","type-post","status-publish","format-standard","has-post-thumbnail","hentry","category-actualite","category-portables-gaming","category-processeurs","tag-intel"],"acf":{"display_mode":"medium-img","post_show_excerpt":true,"post_source":"","hide_sidebar":false,"hide_advertising":false},"yoast_head":"\nIntel lance ses processeurs Tiger Lake-H \u00e0 8 et 6 c\u0153urs<\/title>\n<meta name=\"description\" content=\"10 puces au total r\u00e9parties dans deux gammes. 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