** i3.metal provides 72 logical processors on 36 physical cores. Each GPU included in your instance is licensed for one “Concurrent Connected User", Enables NVIDIA GRID Virtual Application capabilities for application virtualization software like Citrix XenApp Essentials and VMware Horizon, supporting up to 25 concurrent users per GPU, Each GPU features an on-board hardware video encoder designed to support up to 10 H.265 (HEVC) 1080p30 streams and up to 18 H.264 1080p30 streams, enabling low-latency frame capture and encoding, and high-quality interactive streaming experiences, Enhanced Networking using the Elastic Network Adapter (ENA) with 25 Gbps of aggregate network bandwidth within a Placement Group, 64 GiB of ECC-protected memory on 4x DDR4, Approximately 6,800 Digital Signal Processing (DSP) engines, High Frequency Intel Xeon E5-2686 v4 (Broadwell) Processors with base frequency of 2.3 GHz, Up to 25 Gbps of network bandwidth using Elastic Network Adapter (ENA)-based Enhanced Networking, High Random I/O performance and High Sequential Read throughput, Support bare metal instance size for workloads that benefit from direct access to physical processor and memory, Up to 100 Gbps of network bandwidth using Elastic Network Adapter (ENA)-based Enhanced Networking, High random I/O performance and high sequential disk throughput, Up to 3.1 GHz Intel® Xeon® Scalable (Skylake) processors with new Intel Advanced Vector Extension (AVX-512) instruction set, 3.1 GHz all core turbo Intel® Xeon® Scalable (Skylake) processors, Intel AVX†, Intel AVX2†, Intel AVX-512†, Intel Turbo, High-frequency Intel Xeon E5-2676 v3 (Haswell) processors, Consistent high performance at launch time, Powered by 2.3 GHz Intel® Xeon® E5 2686 v4 processors (codenamed Broadwell), ENA enabled Enhanced Networking up to 25 Gbps. Javascript is disabled or is unavailable in your R5 instances are well suited for memory intensive applications such as high performance databases, distributed web scale in-memory caches, mid-size in-memory databases, real time big data analytics, and other enterprise applications. General Purpose (SSD) is the new, SSD-backed, general purpose EBS volume type that we recommend as the default choice for customers. Amazon EC2 provides a wide selection of instance types optimized to fit different use cases. 3D visualizations, graphics-intensive remote workstation, 3D rendering, application streaming, video encoding, and other server-side graphics workloads. r6g.metal, r6gd.metal, This instance family provides dense Non-Volatile Memory Express (NVMe) SSD instance storage optimized for low latency, high random I/O performance, high sequential disk throughput, and offers the lowest price per GB of SSD instance storage on Amazon EC2. some AWS regions support PV instances. T instances accrue CPU Credits when they are idle, and use CPU credits when they are active. How many instances can I run in Amazon EC2? EBS-optimized instances enable EC2 instances to fully use the IOPS provisioned on an EBS volume. The following table summarizes the networking and storage features supported by New 8xlarge and 16xlarge sizes now available. the Up to 3.1 GHz Intel Xeon Platinum Processor, Up to 20 Gbps network bandwidth using Enhanced Networking, With M5ad instances, local NVMe-based SSDs are physically connected to the host server and provide block-level storage that is coupled to the lifetime of the M5a instance, 2nd generation Intel Xeon Scalable Processors (Cascade Lake) with a sustained all-core Turbo CPU frequency of 3.1 GHz and maximum single core turbo frequency of 3.5 GHz, Support for the new Intel Vector Neural Network Instructions (AVX-512 VNNI) which will help speed up typical machine learning operations like convolution, and automatically improve inference performance over a wide range of deep learning workloads, 25 Gbps of peak bandwidth on smaller instance sizes, 100 Gbps of network bandwidth on the largest instance size, With M5dn instances, local NVMe-based SSDs are physically connected to the host server and provide block-level storage that is coupled to the lifetime of the M5 instance, Custom 2nd generation Intel Xeon Scalable Processors (Cascade Lake) with a sustained all-core Turbo CPU frequency of 3.1 GHz and maximum single core turbo frequency of 3.5 GHz, 2.3 GHz Intel Xeon® E5-2686 v4 (Broadwell) processors or 2.4 GHz Intel Xeon® E5-2676 v3 (Haswell) processors, EBS-optimized by default at no additional cost, 2.4 GHz Intel Xeon E5-2676 v3** Processor, With C6gd instances, local NVMe-based SSDs are physically connected to the host server and provide block-level storage that is coupled to the lifetime of the instance. Some instance types are The following components are part of the Nitro System: Nitro security chip, integrated into the motherboard. Amazon EC2 instances typically run on 64-bit virtual Intel processors as specified Amazon EC2 P4 instances are the latest generation of GPU-based instances and provide highest performance for machine learning training and high performance computing in the cloud. High performance front-end fleets, web-servers, batch processing, distributed analytics, high performance science and engineering applications, ad serving, MMO gaming, and video-encoding. Amazon EC2 provides a wide selection of instance types optimized for different use cases. and inexpensive to test multiple instance types before making a decision. If you need consistently high CPU performance for applications such as video encoding, high volume websites or HPC applications, we recommend you use Fixed Performance Instances. T2 Unlimited instances can sustain high CPU performance for as long as a workload needs it. Supports NVLink for peer-to-peer GPU communication. enabled. see Amazon EC2 Instance Types. storage, to a particular instance. For example, instance types with high I/O performance have a larger allocation For more information, see Placement groups. High performance databases, data mining & analysis, in-memory databases, distributed web scale in-memory caches, applications performing real-time processing of unstructured big data, Hadoop/Spark clusters, and other enterprise applications. They are optimized to deliver tens of thousands of low-latency, random I/O operations per second (IOPS) to applications. How many instances can I run in Amazon EC2? T3 instances offer a balance of compute, memory, and network resources and are designed for applications with moderate CPU usage that experience temporary spikes in use. This capability provides baseline performance equivalent to 20% of a CPU core (20% x 60 mins = 12 mins). M5 instances are the latest generation of General Purpose Instances powered by Intel Xeon® Platinum 8175M processors. C5n.18xlarge instances support Elastic Fabric Adapter (EFA), a network interface for Amazon EC2 instances that enables customers to run applications requiring high levels of inter-node communications, like High Performance Computing (HPC) applications using the Message Passing Interface (MPI), at scale on AWS. © 2020, Amazon Web Services, Inc. or its affiliates. G3 instances are optimized for graphics-intensive applications. To describe an instance type, use the describe-instance-types command. For more information, see The higher bandwidth, R5n and R5dn, instance variants are ideal for applications that can take advantage of improved network throughput and packet rate performance. SAP HANA), big data processing engines (e.g. Amazon EC2 P3 instances deliver high performance compute in the cloud with up to 8 NVIDIA® V100 Tensor Core GPUs and up to 100 Gbps of networking throughput for machine learning and HPC applications. Select browser. M5 instances are ideal for workloads that require a balance of compute, memory, and networking resources including web and application servers, small and mid-sized databases, cluster computing, gaming servers, and caching fleet. We recommend using Provisioned IOPS volumes with EBS-optimized instances or instances that support cluster networking for applications with high storage I/O requirements. as the network and the disk subsystem, among instances. The bandwidth an EC2 instance can utilize depends on the instance type and its networking performance specification. * The root device volume must be an Amazon EBS volume. T3a instances can burst at any time for as long as required in Unlimited mode. † AVX, AVX2, and Enhanced Networking are only available on instances launched with HVM AMIs. Each T instance receives CPU Credits continuously, the rate of which depends on the instance size. However, confusion may result from industry Please refer to your browser's Help pages for instructions. higher share of that resource while it's available. Current generation instance types that are enabled for enhanced networking To determine which instance types meet your requirements, such as supported