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개봉 2023.11.22. / 등급: 12세 관람가 / 장르: 드라마 / 국가: 대한민국 감독 : 김성수 출연 : 황정민, 정우...
노량: 죽음의 바다 / 개봉 2023.12. / 장르: 액션, 드라마 / 국가: 대한민국 감독 : 김한민 출연 : 김윤석, ...

newsroom-intel-4th-gen-intel-xeon-2.jpg.rendition.intel.web.1920.1080.jpg

 

-Expansive customer and partner adoption from AWS, Cisco, Cloudera, CoreWeave, Dell Technologies, Dropbox, Ericsson, Fujitsu, Google Cloud, Hewlett Packard Enterprise, IBM Cloud, Inspur Information, IONOS, Lenovo, Los Alamos National Laboratory, Microsoft Azure, NVIDIA, Oracle Cloud, OVHcloud, phoenixNAP, RedHat, SAP, SuperMicro, Telefonica and VMware, among others.

 

- With the most built-in accelerators of any CPU in the world for key workloads such as AI, analytics, networking, security, storage and high performance computing (HPC), 4th Gen Intel Xeon Scalable and Intel Max Series families deliver leadership performance in a purpose-built workload-first approach.
 

- 4th Gen Intel Xeon Scalable processors are Intel’s most sustainable data center processors, delivering a range of features for optimizing power and performance, making optimal use of CPU resources to help achieve customers’ sustainability goals.
 

- When compared with prior generations, 4th Gen Xeon customers can expect a 2.9x1 average performance per watt efficiency improvement for targeted workloads when utilizing built-in accelerators, up to 70-watt2 power savings per CPU in optimized power mode with minimal performance loss for select workloads and a 52% to 66% lower total cost of ownership (TCO)3.
 

 

SANTA CLARA, Calif., Jan. 10, 2023 – Intel today marked one of the most important product launches in company history with the unveiling of 4th Gen Intel® Xeon® Scalable processors (code-named Sapphire Rapids), the Intel® Xeon® CPU Max Series (code-named Sapphire Rapids HBM) and the Intel® Data Center GPU Max Series (code-named Ponte Vecchio), delivering for its customers a leap in data center performance, efficiency, security and new capabilities for AI, the cloud, the network and edge, and the world’s most powerful supercomputers.

 

Working alongside its customers and partners with 4th Gen Xeon, Intel is delivering differentiated solutions and systems at scale to tackle their biggest computing challenges. Intel’s unique approach to providing purpose-built, workload-first acceleration and highly optimized software tuned for specific workloads enables the company to deliver the right performance at the right power for optimal overall total cost of ownership.

 

More: 4th Gen Xeon Scalable Processors (Press Kit) | Intel Introduces 4th Gen Xeon Scalable, Max Series (Event Replay)

 

Additionally, as Intel’s most sustainable data center processors, 4th Gen Xeon processors deliver customers a range of features for managing power and performance, making the optimal use of CPU resources to help achieve their sustainability goals.

 

“The launch of 4th Gen Xeon Scalable processors and the Max Series product family is a pivotal moment in fueling Intel’s turnaround, reigniting our path to leadership in the data center and growing our footprint in new arenas,” said Sandra Rivera, Intel executive vice president and general manager of the Data Center and AI Group. “Intel’s 4th Gen Xeon and the Max Series product family deliver what customers truly want – leadership performance and reliability within a secure environment for their real-world requirements – driving faster time to value and powering their pace of innovation.”

 

Unlike any other data center processor on the market and already in the hands of customers today, the 4th Gen Xeon family greatly expands on Intel’s purpose-built, workload-first strategy and approach. 

 

Leading Performance and Sustainability Benefits with the Most Built-In Acceleration

Today, there are over 100 million Xeons installed in the market – from on-prem servers running IT services, including new as-a-service business models, to networking equipment managing Internet traffic, to wireless base station computing at the edge, to cloud services.

 

Building on decades of data center, network and intelligent edge innovation and leadership, new 4th Gen Xeon processors deliver leading performance with the most built-in accelerators of any CPU in the world to tackle customers’ most important computing challenges across AI, analytics, networking, security, storage and HPC.

 

When comparing with prior generations, 4th Gen Intel Xeon customers can expect a 2.9x1 average performance per watt efficiency improvement for targeted workloads when utilizing built-in accelerators, up to 70-watt2 power savings per CPU in optimized power mode with minimal performance loss, and a 52% to 66% lower TCO3.

 

Sustainability

The expansiveness of built-in accelerators included in 4th Gen Xeon means Intel delivers platform-level power savings, lessening the need for additional discrete acceleration and helping our customers achieve their sustainability goals. Additionally, the new Optimized Power Mode can deliver up to 20% socket power savings with a less than 5% performance impact for selected workloads11. New innovations in air and liquid cooling reduce total data center energy consumption further; and for the manufacturing of 4th Gen Xeon, it’s been built with  90% or more renewable electricity at Intel sites with state-of-the-art water reclamation facilities.

 

Artificial Intelligence

In AI, and compared to previous generation, 4th Gen Xeon processors achieve up to 10x5,6 higher PyTorch real-time inference and training performance with built-in Intel® Advanced Matrix Extension (Intel® AMX) accelerators. Intel’s 4th Gen Xeon unlocks new levels of performance for inference and training across a wide breadth of AI workloads. The Xeon CPU Max Series expands on these capabilities for natural language processing, with customers seeing up to a 20x12 speed-up on large language models. With the delivery of Intel’s AI software suite, developers can use their AI tool of choice, while increasing productivity and speeding time to AI development. The suite is portable from the workstation, enabling it to scale out in the cloud and all the way out to the edge. And it has been validated with over 400 machine learning and deep learning AI models across the most common AI uses cases in every business segment. 

 

Networking

4th Gen Xeon offers a family of processors specifically optimized for high-performance, low-latency network and edge workloads. These processors are a critical part of the foundation driving a more software-defined future for industries ranging from telecommunications and retail to manufacturing and smart cities. For 5G core workloads, built-in accelerators help increase throughput and decrease latency, while advances in power management enhance both the responsiveness and the efficiency of the platform. And, when compared to previous generations, 4th Gen Xeon delivers up to twice the virtualized radio access network (vRAN) capacity without increasing power consumption. This enables communications service providers to double the performance-per-watt to meet their critical performance, scaling and energy efficiency needs.

 

High Performance Computing

4th Gen Xeon and the Intel Max Series product family bring a scalable, balanced architecture that integrates CPU and GPU with oneAPI’s open software ecosystem for demanding computing workloads in HPC and AI, solving the world’s most challenging problems.

The Xeon CPU Max Series is the first and only x86-based processor with high bandwidth memory, accelerating many HPC workloads without the need for code changes. The Intel Data Center GPU Max Series is Intel’s highest-density processor and will be available in several form factors that address different customer needs.

The Xeon CPU Max Series offers 64 gigabytes of high bandwidth memory (HBM2e) on the package, significantly increasing data throughput for HPC and AI workloads. Compared with top-end 3rd Gen Intel® Xeon® Scalable processors, the Xeon CPU Max Series provides up to 3.7 times10 more performance on a range of real-world applications like energy and earth systems modeling.

Further, the Data Center GPU Max Series packs over 100 billion transistors into a 47-tile package, bringing new levels of throughput to challenging workloads like physics, financial services and life sciences. When paired with the Xeon CPU Max Series, the combined platform achieves up to 12.8 times13 greater performance than the prior generation when running the LAMMPS molecular dynamics simulator.

 

Most Feature-Rich and Secure Xeon Platform Yet

Signifying the biggest platform transformation Intel has delivered, not only is 4th Gen Xeon a marvel of acceleration, but it is also an achievement in manufacturing, combining up to four Intel 7-built tiles on a single package, connected using Intel EMIB (embedded multi-die interconnect bridge) packaging technology and delivering new features including increased memory bandwidth with DDR5, increased I/O bandwidth with PCIe5.0 and Compute Express Link (CXL) 1.1 interconnect. 

At the foundation of it all is security. With 4th Gen Xeon, Intel is delivering the most comprehensive confidential computing portfolio of any data center silicon provider in the industry, enhancing data security, regulatory compliance and data sovereignty. Intel remains the only silicon provider to offer application isolation for data center computing with Intel® Software Guard Extensions (Intel® SGX), which provides today’s smallest attack surface for confidential computing in private, public and cloud-to-edge environments. Additionally, Intel’s new virtual-machine (VM) isolation technology, Intel® Trust Domain Extensions (Intel® TDX), is ideal for porting existing applications into a confidential environment and will debut with Microsoft Azure, Alibaba Cloud, Google Cloud and IBM Cloud.

Finally, the modular architecture of 4th Gen Xeon allows Intel to offer a wide range of processors across nearly 50 targeted SKUs for customer use cases or applications, from mainstream general-purpose SKUs to purpose-built SKUs for cloud, database and analytics, networking, storage, and single-socket edge use cases. The 4th Gen Xeon processor family is On Demand-capable and varies in core count, frequency, mix of accelerators, power envelope and memory throughput as is appropriate for target use cases and form factors addressing customers’ real-world requirements.

 

¹ Geomean of following workloads:  RocksDB (IAA vs ZTD), ClickHouse (IAA vs ZTD), SPDK large media and database request proxies (DSA vs out of box), Image Classification ResNet-50 (AMX vs VNNI), Object Detection SSD-ResNet-34 (AMX vs VNNI), QATzip (QAT vs zlib)​

² 1-node, Intel Reference Validation Platform, 2x Intel® Xeon 8480+ (56C, 2GHz, 350W TDP), HT On,  Turbo ON,  Total Memory: 1 TB (16 slots/ 64GB/ 4800 MHz), 1x P4510 3.84TB NVMe PCIe Gen4 drive, BIOS: 0091.D05, (ucode:0x2b0000c0),  CentOS Stream 8, 5.15.0-spr.bkc.pc.10.4.11.x86_64, Java Perf/Watt w/ openjdk-11+28_linux-x64_bin, 112 instances, 1550MB Initial/Max heap size, Tested by Intel as of Oct 2022.​

³ ResNet50 Image Classification​

New Configuration: 1-node, 2x pre-production 4th Gen Intel® Xeon® Scalable 8490H processor (60 core) with Intel® Advanced Matrix Extensions (Intel AMX),  on pre-production SuperMicro SYS-221H-TNR with 1024GB DDR5 memory (16x64 GB), microcode 0x2b0000c0, HT On, Turbo On, SNC Off, CentOS Stream 8, 5.19.16-301.fc37.x86_64, 1x3.84TB P5510 NVMe, 10GbE x540-AT2, Intel TF 2.10, AI Model=Resnet 50 v1_5, best scores achieved: BS1 AMX 1 core/instance (max. 15ms SLA),  using physical cores, tested by Intel November  2022. Baseline: 1-node, 2x production 3rd Gen Intel Xeon Scalable 8380 Processor ( 40 cores) on SuperMicro SYS-220U-TNR , DDR4 memory total 1024GB (16x64 GB), microcode 0xd000375, HT On, Turbo On, SNC Off, CentOS Stream 8, 5.19.16-301.fc37.x86_64, 1x3.84TB P5510 NVMe, 10GbE x540-AT2, Intel TF 2.10, AI Model=Resnet 50 v1_5, best scores achieved: BS1 INT8 2 cores/instance (max. 15ms SLA), using physical cores, tested by Intel November  2022.​

For a 50 server fleet of 3rd Gen Xeon 8380 (RN50 w/DLBoost), estimated as of November 2022: ​

CapEx costs: $1.64M​

OpEx costs (4 year, includes power and cooling utility costs, infrastructure and hardware maintenance costs): $739.9K​

Energy use in kWh (4 year, per server): 44627, PUE 1.6​

Other assumptions:  utility cost $0.1/kWh,  kWh to kg CO2 factor 0.42394 ​

For a 17 server fleet of 4th Gen Xeon 8490H (RN50 w/AMX), estimated as of November 2022: ​

CapEx costs: $799.4K​

OpEx costs (4 year, includes power and cooling utility costs, infrastructure and hardware maintenance costs): $275.3K​

Energy use in kWh (4 year, per server): 58581, PUE 1.6

AI -- 55% lower TCO by deploying fewer 4th Gen Intel® Xeon® processor-based servers to meet the same performance requirement. See [E7] at intel.com/processorclaims: 4th Gen Intel Xeon Scalable processors. Results may vary.

Database -- 52% lower TCO by deploying fewer 4th Gen Intel® Xeon® processor-based servers to meet the same performance requirement. See [E8] at intel.com/processorclaims: 4th Gen Intel Xeon Scalable processors. Results may vary.

HPC -- 66% lower TCO by deploying fewer Intel® Xeon® CPU Max processor-based servers to meet the same performance requirement. See [E9] at intel.com/processorclaims: 4th Gen Intel Xeon Scalable processors. Results may vary.

4 Geomean of HP Linpack, Stream Triad, SPECrate2017_fp_base est, SPECrate2017_int_base est. See [G2, G4, G6] at intel.com/processorclaims: 4th Gen Intel Xeon Scalable.​

5 Up to 10x higher PyTorch real-time inference performance with built-in Intel® Advanced Matrix Extensions (Intel® AMX) (BF16) vs. the prior generation (FP32)​

PyTorch geomean of ResNet50, Bert-Large, MaskRCNN, SSD-ResNet34, RNN-T, Resnext101.​

6 Up to 10x higher PyTorch training performance with built-in Intel® Advanced Matrix Extensions (Intel® AMX) (BF16) vs. the prior generation (FP32)​

PyTorch geomean of ResNet50, Bert-Large, DLRM, MaskRCNN, SSD-ResNet34, RNN-T.​

7 Estimated as of 8/30/2022 based on 4th generation Intel® Xeon® Scalable processor architecture improvements vs 3rd generation Intel® Xeon® Scalable processor at similar core count, socket power and frequency on a test scenario using FlexRAN™ software. Results may vary.

8 Up to 95% fewer cores and 2x higher level 1 compression throughput with 4th Gen Intel Xeon Platinum 8490H using integrated Intel QAT vs. prior generation.​

8490H: 1-node, pre-production platform with 2x 4th  Gen Intel® Xeon Scalable Processor (60 core) with integrated Intel QuickAssist Accelerator (Intel QAT), QAT device utilized=8(2 sockets active), with Total 1024GB (16x64 GB) DDR5 memory, microcode 0xf000380, HT On, Turbo Off, SNC Off, Ubuntu 22.04.1 LTS, 5.15.0-47-generic, 1x 1.92TB Intel® SSDSC2KG01, QAT v20.l.0.9.1 , QATzip v1.0.9 , ISA-L v2.3.0, tested by Intel September 2022. ​

8380: 1-node, 2x 3rd Gen Intel Xeon Scalable Processors( 40 cores) on Coyote Pass platform, DDR4 memory total 1024GB (16x64 GB), microcode 0xd000375, HT On, Turbo Off, SNC Off, Ubuntu 22.04.1 LTS, 5.15.0-47-generic, 1x 1.92TB Intel SSDSC2KG01,QAT v1.7.l.4.16,  QATzip v1.0.9 , ISA-L v2.3.0, tested by Intel October 2022.​

9 Up to 3x higher RocksDB performance with 4th Gen Intel Xeon Platinum 8490H using integrated Intel IAA vs. prior generation.​

8490H: 1-node, pre-production Intel platform with 2x 4th Gen Intel Xeon Scalable Processor (60 cores) with integrated Intel In-Memory Analytics Accelerator (Intel IAA), HT On, Turbo On, Total Memory 1024GB (16x64GB DDR5 4800),  microcode 0xf000380,  1x 1.92TB INTEL SSDSC2KG01, Ubuntu 22.04.1 LTS, 5.18.12-051812-generic, QPL v0.1.21,accel-config-v3.4.6.4, ZSTD v1.5.2, RocksDB v6.4.6 (db_bench), tested by Intel  September 2022.​

8380: 1-node, 2x  3rd Gen Intel Xeon Scalable Processors( 40 cores) on Coyote Pass platform, HT On, Turbo On, SNC Off, Total Memory 1024GB (16x64GB DDR4 3200), microcode 0xd000375, 1x 1.92TB INTEL SSDSC2KG01, Ubuntu 22.04.1 LTS, 5.18.12-051812-generic,  ZSTD v1.5.2, RocksDB v6.4.6 (db_bench), tested by Intel  October 2022.​

10 Intel® Xeon® 8380: Test by Intel as of 10/7/2022. 1-node, 2x Intel® Xeon® 8380 CPU, HT On, Turbo On, Total Memory 256 GB (16x16GB 3200MT/s DDR4), BIOS Version SE5C620.86B.01.01.0006.2207150335, ucode revision=0xd000375, Rocky Linux 8.6, Linux version 4.18.0-372.26.1.el8_​6.crt1.x86_​64, YASK v3.05.07​

Intel® Xeon® CPU Max Series: Test by Intel as of ww36’22. 1-node, 2x Intel® Xeon® CPU Max SeriesHT On, Turbo On, SNC4, Total Memory 128 GB (8x16GB HBM2 3200MT/s), BIOS Version SE5C7411.86B.8424.D03.2208100444, ucode revision=0x2c000020, CentOS Stream 8, Linux version 5.19.0-rc6.0712.intel_​next.1.x86_​64+server, YASK v3.05.07.

11 Up to 20% system power savings utilizing 4th Gen Xeon Scalable with Optimized Power mode on vs  off on select workloads including SpecJBB, SPECINT and NIGNX key handshake.​

12 AMD Milan: Tested by Numenta as of 11/28/2022. 1-node, 2x AMD EPYC 7R13 on AWS m6a.48xlarge, 768 GB DDR4-3200, Ubuntu 20.04 Kernel 5.15, OpenVINO 2022.3, BERT-Large, Sequence Length 512, Batch Size 1​

Intel® Xeon® 8480+: Tested by Numenta as of 11/28/2022. 1-node, 2x Intel® Xeon® 8480+, 512 GB DDR5-4800, Ubuntu 22.04 Kernel 5.17, OpenVINO 2022.3, Numenta-Optimized BERT-Large, Sequence Length 512, Batch Size 1​

Intel® Xeon® Max 9468: Tested by Numenta as of 11/30/2022. 1-node, 2x Intel® Xeon® Max 9468, 128 GB HBM2e 3200 MT/s, Ubuntu 22.04 Kernel 5.15, OpenVINO 2022.3, Numenta-Optimized BERT-Large, Sequence Length 512, Batch Size 1

13 Intel® Xeon® 8380: Test by Intel as of 10/28/2022. 1-node, 2x Intel® Xeon® 8380 CPU, HT On, Turbo On, Total Memory 256 GB (16x16GB 3200MT/s, Dual-Rank), BIOS Version SE5C6200.86B.0020.P23.2103261309, ucode revision=0xd000270, Rocky Linux 8.6, Linux version 4.18.0-372.19.1.el8_6.crt1.x86_64​

Intel® Xeon® CPU Max Series HBM: Test by Intel as of 10/28/2022. 1-node, 2x Intel® Xeon® Max 9480, HT On, Turbo On, Total Memory 128 GB HBM2e, BIOS EGSDCRB1.DWR.0085.D12.2207281916, ucode 0xac000040, SUSE Linux Enterprise Server 15 SP3, Kernel 5.3.18, oneAPI 2022.3.0​

Intel® Data Center GPU Max Series with DDR Host: Test by Intel as of 10/28/2022. 1-node, 2x Intel® Xeon® Max 9480, HT On, Turbo On, Total Memory 1024 GB DDR5-4800 + 128 GB HBM2e, Memory Mode: Flat, HBM2e not used, 6x Intel® Data Center GPU Max Series, BIOS EGSDCRB1.DWR.0085.D12.2207281916, ucode 0xac000040, Agama pvc-prq-54, SUSE Linux Enterprise Server 15 SP3, Kernel 5.3.18, oneAPI 2022.3.0​

Intel® Data Center GPU Max Series with HBM Host: Test by Intel as of 10/28/2022. 1-node, 2x Intel® Xeon® Max 9480, HT On, Turbo On, Total Memory 128 GB HBM2e, 6x Intel® Data Center GPU Max Series, BIOS EGSDCRB1.DWR.0085.D12.2207281916, ucode 0xac000040, Agama pvc-prq-54, SUSE Linux Enterprise Server 15 SP3, Kernel 5.3.18, oneAPI 2022.3.0​






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      AMD 기술 프레젠테이션에서 Radeon RX 7900 XTX 및 RX 7900 XT RDNA3 그래픽 카드의 베이스 클럭 속도가 확인됏다. 또한 늦게 출시될 GeForce RTX 40 시리즈 "Ada" 제품인 RTX 4080(16GB)을 처음 언...
    Date2022.12.04 CategoryGPU Views678
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  14. 레이트레이싱 대응 고성능 스마트폰 프로세서, 미디어텍 "Dimensity 9200" 발표

      대만 미디어텍은 8일(현지시간), 고성능 스마트폰용 플래그십 프로세서 디멘시티 9200을 발표했다.   자사 CPU에 최초 3.05GHz 코텍스-X3 통합, 하드웨어 기반 레이트레이싱 엔진을 갖춘 이모탈...
    Date2022.11.09 CategoryPROCESSOR Views667
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  15. 러시아 자체 개발 48코어 Baikal-S 프로세서 다이 사진 공개

    유명 칩 사진작가인 Fritzchens Fritz가 Baikal-S SoC가 내부적으로 어떻게 구성되어 있는지 정확히 보여주는 사진을 공개했다. TSMC의 16nm 공정으로 제조된 Baikal-S BE-S1000 프로세서는 2.0GHz 베이스 ...
    Date2022.10.18 CategoryPROCESSOR Views603
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  16. MediaTek, 6나노 설계 적용 신형 SoC 디멘시티(Dimensity) 1080 발표

    MediaTek은 11일, 5G에 대응하는 신형 SoC 디멘시티(Dimensity) 1080을 발표했다. 기존 Dimensity 920의 후속 SoC로 2022년 4분기에 탑재 제품이 발매 될 예정이다.   Dimensity 1080은 옥타코어 구성...
    Date2022.10.13 CategoryPROCESSOR Views684
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  17. Intel Arc A770 및 A750 그래픽 카드, 전 세계 판매 시작

    인텔이 신형 Arc A770 및 A750 그래픽 카드의 일반 판매를 공식적으로 시작했다.    인텔의 레퍼런스 한정판 카드와 ASRock, Acer 등 OEM 커스텀 디자인 카드가 판매되며 A750의 기본 가격은 289달러, ...
    Date2022.10.13 CategoryGPU Views500
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  18. Intel Arc A770 그래픽카드 출시, USD $329가격으로 10월 12일부터 사용

      Intel이 Arc A770 Limited Edition 그래픽 카드를 출시했다. 329달러의 가격으로 약 400달러 범위의 NVIDIA 및 AMD 그래픽 카드에 필적하는 성능을 제공하는 가성비를 앞세운 제품이다.    A770...
    Date2022.10.06 CategoryGPU Views390
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  19. Intel 13세대 코어 랩터 레이크(Raptor Lake) 프로세서 출시

    인텔이 13세대 코어 랩터 레이크(Raptor Lake) 프로세서와 700 시리즈 마더보드 칩셋을 출시했다. 이 프로세서는 이전 세대 Alder Lake와 동일한 LGA1700 패키지로 제작되었으며 BIOS 업데이트를 통해 600 ...
    Date2022.10.01 CategoryPROCESSOR Views772
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  20. 새로운 GeForce RTX 40 시리즈 GPU와 NVIDIA Studio 업데이트

    콘텐츠 제작 속도가 전례 없을 정도로 빨라지고 있습니다. 아름다운 예술 작품을 조각하는 3D 아티스트, 틱톡(TikTok)의 다음 히트작을 편집하는 인플루언서 지망생을 비롯해 전 세계 1억 1천만 명 이상...
    Date2022.10.01 CategoryGPU Views663
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  21. 인텔 브랜드 공식 그래픽카드, 메인스트림급 Arc A380 출시

    인텔은 공식적으로 중국에서 Arc A380 "Alchemist" 보급형 메인스트림 데스크탑 그래픽 카드를 출시했다. Arc A380 "Alchemist"는 Xe-HPG 그래픽 아키텍처와 TSMC N6(6nm) 제조 공정에 DG2-128(ACM-G11) 실...
    Date2022.06.28 CategoryGPU Views1583
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  22. 독일, 인텔 마그데부르크 반도체 팹에 68억 유로 지원

    독일 언론은 인텔이 계획한 마그데부르크 반도체 팹에 약 68억 유로의 보조금을 지원할 것이라고 보도했다. 약 27억 유로가 이미 2022년 연방 정부 예산으로 배정되었으며 나머지 금액은 2023년 및 2024년 ...
    Date2022.06.14 CategoryENTERPRISE Views1475
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  23. Intel Core i9-13900 "랩터레이크(Raptor Lake)" 프로세서 성능 공개

    인텔은 코드명 랩터 레이크(Raptor Lake)라는 13세대 프로세서 출시를 준비하고 있다. Alder Lake의 뒤를 이어 13세대 디자인은 Intel의 향상된 7+ 노드에서 제조된 16개의 E-코어와 함께 최대 8개의 P-코...
    Date2022.06.14 CategoryPROCESSOR Views1401
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  24. 브로드컴(Broadcom), 가상화 전문기업 VMware 인수

    반도체 및 인프라 소프트웨어 솔루션 설계/개발 글로벌 기술 선도업체인 브로드컴(Broadcom Inc. NASDAQ: AVGO)이 가상화 솔루션 전문 기업인 VMware, Inc.(NYSE: VMW)를 610억 달러에 인수한다고 발표...
    Date2022.06.07 CategoryENTERPRISE Views1572
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  25. 512EU 인텔 Arc Alchemist 그래픽 카드가 GeForce RTX 3070Ti 능가

    Intel의 Arc Alchemist 외장 그래픽 카드 라인업은 이번 분기에 출시될 예정으로 최고급 Xe-HPG 구성을 나타내는 DG2-512EU 제품의 성능 벤치마크가 공개됐다.  유명 하드웨어 정보 유출자 TUM_APISAK이 Si...
    Date2022.02.03 CategoryGPU Views3117
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  26. VR 헤드셋 경쟁 2막 예고…하이엔드 라인업 출시할 Meta 등

    메타버스 열풍과 대형 IT 기업의 제품 개발 소식이 알려지며 VR 헤드셋 경쟁은 다시 한 번 치열해질 것으로 전망된다. 새로운 VR 헤드셋 라인 추가를 예고한 Meta와 Apple의 MR 헤드셋이 지난해부터 관심의...
    Date2022.02.03 CategoryENTERPRISE Views2946
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  27. LG전자, IBM과 양자컴퓨팅 개발 위해 협력

    LG전자와 美 IT기업 IBM이 10일 양자컴퓨팅 발전과 기술 개발을 위해 협력키로 발표했다. 양자컴퓨팅은 기존 컴퓨터보다 더 많은 양을 더 빠르게 계산해 종전에는 답을 찾기 어려웠던 영역의 문제를 ...
    Date2022.01.15 CategoryENTERPRISE Views3219
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  28. NVIDIA, 신형 GeForce RTX 3050 및 GeForce RTX 3090 Ti 출시

    NVIDIA가 RTX 3060 보다 한 단계 낮은 위치에 있는 GeForce RTX 3050 데스크탑 그래픽 카드를 출시했다. 이 카드는 RTX 3060과 동일한 8nm "GA106" 실리콘을 기반으로 하지만 스트리밍 멀티프로세서(S...
    Date2022.01.06 CategoryGPU Views3656
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