Cloud Computing
AWS Cloud Computing
General purpose instances provide a balance of compute, memory and networking resources, and can be used for a variety of diverse workloads. These instances are ideal for applications that use these resources in equal proportions such as web servers and code repositories.
Features (up to):
- 96 vCPUs
- 3.9 GHz Processor speeds
- 385 GiB Memory
Compute Optimized instances are ideal for compute bound applications that benefit from high performance processors. Instances belonging to this family are well suited for batch processing workloads, media transcoding, high performance web servers, high performance computing (HPC), scientific modeling, dedicated gaming servers and ad server engines, machine learning inference and other compute intensive applications.
Features (up to):
- 96 vCPUs
- 3.9 GHz Processor speeds
- 385 GiB Memory
Memory optimized instances are designed to deliver fast performance for workloads that process large data sets in memory.
Features (up to):
- 128 vCPUs
- 3.5 GHz Processor speeds
- 1 952 GiB Memory
Accelerated computing instances use hardware accelerators, or co-processors, to perform functions, such as floating point number calculations, graphics processing, or data pattern matching, more efficiently than is possible in software running on CPUs.
Features (up to):
- 96 vCPUs
- 3.0 GHz Processor speeds
- 1 152 GiB Memory
- 8 NVIDIA A100 Tensor Core GPUs
Storage optimized instances are designed for workloads that require high, sequential read and write access to very large data sets on local storage. They are optimized to deliver tens of thousands of low-latency, random I/O operations per second (IOPS) to applications.
Features (up to):
- 96 vCPUs
- 3.1 GHz Processor speeds
- 768 GiB Memory
- 60 TB of NVMe SSD storage
Contact us for a detailed quote on your application needs
Google Cloud Computing
General-purpose machines offering a good balance of price and performance, and are suitable for a wide variety of common workloads including databases, development and testing environments, web applications, and mobile gaming. They support up to 224 vCPUs and 896 GB of memory.
Compute-optimized machines provide the highest performance per core on Compute Engine and are optimized for workloads such as high performance computing (HPC), game servers, and latency-sensitive API serving.
Memory-optimized machines offer the highest memory configurations with up to 12 TB for a single instance. They are well suited to memory-intensive workloads such as large in-memory databases like SAP HANA, and in-memory data analytics workloads.
Accelerator-optimized machines are based on the NVIDIA Ampere A100 Tensor Core GPU. Each A100 GPU offers up to 20x the compute performance compared to the previous generation GPU. These VMs are designed for your most demanding workloads such as machine learning and high performance computing.
Database Management
Easily develop rich applications using a fully managed, scalable, and serverless document database.
NoSQL database for storing and syncing data in real time.
Fully managed relational database service for MySQL, PostgreSQL, and SQL Server. Run the same relational databases you know with their rich extension collections, configuration flags and developer ecosystem, but without the hassle of self management.
A fully managed, scalable NoSQL database service for large analytical and operational workloads with up to 99.999% availability.