Search Results for low cost gpu
Artificial Intelligence Machine Learning | AI / ML | Amphenol
We provide reliable integrated signal integrity solutions across High Speed IO, Backplane, and Mezzanine Connectors and Cables to meet the expansive goals of AI/ML.
Open Compute Project Solutions - Amphenol CS
Amphenol offers a comprehensive portfolio of plug-and-play interconnects ranging from 50A to 1000A catering to Open Rack ORv2 and ORv3 specifications, to empower businesses to achieve cost savings, seamless implementation, and enhanced energy efficiency.
A Deep Dive into High-Speed Computing Server Interconnect Solutions
Ideal for use in high-speed computing data center server systems, GPU cards, Riser cards and accelerator cards, the PCIe ® DirectAttached ™ cable riser solution is a revolutionary interconnect solution, using cable to replace legacy PCIe ® riser cards.
Optical Interconnect for Hyperscale Data Center with AI / ML ...
CPU and GPU designs are continuously delivering higher performance, enabling faster computation. System memory capacities are also increasing to meet the growing demands of these workloads. Lower latency requirements are driving the need for increased density in system architectures.
PCIE | Amphenol Global Search | Amphenol
PCIe 6.0 doubles bandwidth and power efficiency over PCIe 5.0 (32 GT/s), while meeting industry demand for high-speed, low-latency interconnects. Data Center, AI/ML, HPC, Automotive, IoT, and Military/Aerospace markets benefit from PCIe 6.0 technology’s cost-effective and scalable interconnect solution.
MCIO | Amphenol Global Search | Amphenol
Amphenol's Mini Cooledge IO (MCIO) is a high-speed, small mechanical size cable solution. Amphenol MCIO product is now being specified in the SFF group and the project number is SFF-TA-1016. MCIO cable can support PCIe Gen5, and is scalable to PCIe Gen6 and 112G PAM4.
OverPass™ Internal High Speed Interconnect - Amphenol CS
Reduced overall system cost; Lower loss interconnect from chip site to external port; Short signal travel length from cable to board pad; Delivers superior signal integrity performance
Consumer Applications | POS Terminal | Personal Care | Home Appliances
Amphenol offers a wide range of high performance SATA connectors. They are designed to support up to 12Gb/s, enabling the implementation of low cost, high speed, high capacity hard disk drive (HDD).
Server & Storage Brochure 2024 | Amphenol
Amphenol is a leader in providing industry proven solutions used across server and storage equipment, and next-generation enterprise applications.
Card Edge Connectors | Cables | High-Speed Cable Assemblies - Amphenol CS
This connector finds applications in many scenarios like data center server systems, GPU cards, PCIe® Riser cards, and accelerator cards. It is cost-saving and space-saving by removing the need for motherboard and riser card PCBs.
ExaMAX ® 56Gb/s High-Speed Backplane Connector - Amphenol CS
ExaMAX ® backplane connector system is designed for higher bandwidth applications from 25Gb/s to 56Gb/s. The optimized connector design delivers superior signal integrity performance resulting in low crosstalk noise and low insertion.
PCIe ® Gen 6 High Speed Interconnect Solutions - Amphenol CS
PCIe 6.0 doubles bandwidth and power efficiency over PCIe 5.0 (32 GT/s), while meeting industry demand for high-speed, low-latency interconnects. Data Center, AI/ML, HPC, Automotive, IoT, and Military/Aerospace markets benefit from PCIe 6.0 technology’s cost-effective and scalable interconnect solution.
Data Centers Market Brochure | Amphenol
Amphenol has a robust portfolio of high performance, reliable connectors that are ideal for Data Center storage systems. Amphenol provides a wide range of the most advanced interconnect solutions for modern Data Centers and all their components.
Amphenol releases ExaMAX2® Gen2 to unlock AI hardware computing power ...
The Gen2 upgrade elevates the already proven performance of the ExaMAX2 ® connector system to the best-in-class solution for cost, signal density, PCB routing, and overall performance, and can be widely used in industries such as communication, data, and instruments.
ExaMAX2® Connector System: Elevating Performance and ... - Amphenol CS
Unveiling ExaMAX2®: A Revolution in Data Transmission. The ExaMAX2 ® Connector System emerges as a beacon of innovation, designed to support the 100Ω 112Gb/s PAM4 and 85Ω PCIe 7.0 industry specifications.
The Brain of Modern Vehicles: Understanding Car Computing
The Automotive Grade PCI Express ® Gen 5 Card Edge Connectors are compliant with USCAR specifications and are typically used for high-speed data transfer between motherboard-mounted peripherals, a passive backplane interconnect, and as an expansion card interface for add-in boards such as GPU or any other Accelerator Cards.
PCI Express® Gen 4 & Gen 5 Card Edge Connectors - Amphenol CS
Amphenol PCIe Gen 4 & Gen 5 CEM connectors meet and outperform industry standard PCIe 4.0 & 5.0 (Proposed) requiring higher speed performance. The optimized series supports backwards mating and is footprint compatible with PCIe 3/2/1.
Backplane Connectors for PCIe® Applications - Amphenol CS
Amphenol’s high speed backplane group offers two product families that allow system designers to overcome these challenges and minimize their overall system cost: The ExaMAX ® product line offers decent signal density and first-class electrical performance, while giving system designers wide selections of different configurations.
OverPass™ Cabled Backplane | High Speed - Amphenol CS
Cost optimized with scalable performance beyond 56G PAM4; Innovative design supports low insertion/extraction forces along with reduced crosstalk and low insertion loss; Flexible connector architecture supports cable mating with a backplane cable, press fit headers, right angle and orthogonal configurations
ExaMAX® 56Gb/s High Speed Orthogonal Connector System - Amphenol CS
ExaMAX® high speed orthogonal connector system is designed to enable superior 56Gb/s electrical performance for increasing bandwidth requirements and the data rates used for high speed signaling.