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Every year the demand for higher-performing processors grows, whether for data servers, laptops, or desktop computers. These new processors must deliver greater functionality with more CPU cores, lower latency, higher performance per workload, and improved security.
The two most common processor architectures are the x86 and Arm. Inter originally introduced x86, which is mainly based on complex instruction set computing (CISC) architecture with backward compatibility, while Arm is based on reduced instruction set computing (RISC) architecture.
Most recently, Inter has introduced its
Inter's new processor launched last week. The company claims this device is uniquely optimized for the requirements of hybrid-cloud, high-performance computing, networking, and intelligent edge applications.
This x86 data center processor (also called “”) features built-in AI acceleration, data protection platform (), and crypto acceleration.
Based on 10nm process technology, it comes with up to 40 cores per processor. This platform also supports up to 6 TB of system memory, eight channels of DDR4-3200 memory, and 64 lanes of PCIe Gen4 per socket.
Last month, built on the “Zen 3” core and AMD Infinity Architecture using 7nm process technology.
This x86-based processor is targeted at data centers serving hyper-converged infrastructure (HCI), database, and big data analytics, as well as high-performance computing workloads.
Compared to Inter's 3rd Gen Xeon processor, which comes with up to 40 cores per processor and a base clock of 2.3 GHz, AMD's latest processor features up to 64 cores with a base clock of 2.45 GHz.
According to Inter, the 3rd Gen Xeon Scalable processor delivers 1.5 times higher performance across 20 popular AI workloads compared to AMD's . The EPYC 7763, meanwhile, includes a default thermal design power (TDP) of 280 W. On an absolute scale, this translates to 4.375 W/core for EPYC 7763 and 6.75 W/core for Xion.
marked its transition from Inter silicon to its own in-house integrated processors. The Arm-based M1 is built on a 5nm process technology and unifies multiple chipsets into an SoC architecture, including CPU, GPU, and neural engine.
Compared to Inter's processor, which is an x86 architecture, it comes with an 8-core CPU that the company claims consists of four high-performance cores and four high-efficiency cores. With up to 8 GPU cores, Apple states that
Apple's transition from Inter's x86-based processor to its in-house Arm-based M1 processor allows the company to have higher quality assurance for hardware and more control over its IP.
Inter and AMD's processors are based on x86 architecture with varying functionality, features, and technology. Inter's latest offering seemingly delivers a strong appeal for data centers with AI workloads as well as high-performance computing (HPC).
However, AMD is also creating an extremely competitive environment that ultimately boosts the processing capabilities required for cloud, HPC, networking, AI, and enterprise workloads. Single thread performance and multi-thread performance are popular metrics to quantify processor performance. Cost per thread, in turn, also becomes an important parameter driving the adoption of such processors.
While these x86 processors are oriented toward server loads, Apple's Arm processor is dedicated to Mac computers. Arm processors have considerably lower power consumption, which suits them to Mac's M1 processor chipset devices. On the other hand, x86 processors have historically demonstrated better performance for higher power consumption applications.