Consolidate and analyze application logs without worrying about their location.
Standard instances (Gen 1) – Linux OS Based
Production Grate instances (2nd Generation Intel® Xeon® Scalable Processors) - better for multiple range of main workloads, which requires predicted computing performance.
Name | vCPUs | RAM | Storage | Bandwidth | Price |
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Prices before tax.
Standard instances (Gen 1) – Windows OS Based
Production Grate instances (2nd Generation Intel® Xeon® Scalable Processors) - better for multiple range of main workloads, which requires predicted computing performance. Included Windows License.
Name | vCPUs | RAM | Storage | Bandwidth | Price |
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Prices before tax.
CPU Optimized instances (Gen 1) – Linux OS Based
Production Grate instances (2nd Generation Intel® Xeon® Scalable Processors) - better for workloads and projects with intensive CPU usage. This instance type refers to CPU performance more than to RAM or High IOPS Storage. Example workloads: big data packet processing, video coding, huge builds.
Name | vCPUs | RAM | Storage | Bandwidth | Price |
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Prices before tax.
CPU Optimized instances (Gen 1) – Windows OS Based
Production Grate instances (2nd Generation Intel® Xeon® Scalable Processors) - better for workloads and projects with intensive CPU usage. This instance type refers to CPU performance more than to RAM or High IOPS Storage. Example workloads: big data packet processing, video coding, huge builds. Included Windows License.
Name | vCPUs | RAM | Storage | Bandwidth | Price |
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Prices before tax.
Memory Optimized instances (Gen 1) – Linux OS Based
Production Grate instances (2nd Generation Intel® Xeon® Scalable Processors) - better for workloads and projects with RAM basis, generally for databases.
Name | vCPUs | RAM | Storage | Bandwidth | Price |
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Prices before tax.
Memory Optimized instances (Gen 1) – Windows OS Based
Production Grate instances (2nd Generation Intel® Xeon® Scalable Processors) - better for workloads and projects with RAM basis, generally for databases. Included Windows License.
Name | vCPUs | RAM | Storage | Bandwidth | Price |
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Prices before tax.
Shared instances (Gen 1) – Linux OS Based
Development Grate instances - with partial use of the core. Better for workloads that do not require high performance. In addition, these machines cost less than standard virtual machines. No SLAs.
Name | vCPUs | RAM | Storage | Bandwidth | Price |
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Prices before tax.
High-Frequency instances (Gen 1) – Linux OS Based
Production Grate instances (Intel® Xeon® E Processor) - this type of instances deliver high single thread performancewith a sustained all core frequency of up to 3.7+ GHz.
Name | vCPUs | RAM | Storage | Bandwidth | Price |
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Prices before tax.
High-Frequency instances (Gen 1) – Windows OS Based
Production Grate instances (Intel® Xeon® E Processor) - this type of instances deliver high single thread performancewith a sustained all core frequency of up to 3.7+ GHz. Included Windows License.
Name | vCPUs | RAM | Storage | Bandwidth | Price |
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Prices before tax.
SGX-enabled instances (Gen 1) – Linux OS Based
Production Grate instances (Intel® Xeon® E Processor) - this type of instances enable you to build secure enclave-based applications to protect your code and data while it’s in use.
Name | vCPUs | RAM | Storage | Bandwidth | Price |
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Prices before tax.
SGX-enabled instances (Gen 1) – Windows OS Based
Production Grate instances (Intel® Xeon® E Processor) - this type of instances enable you to build secure enclave-based applications to protect your code and data while it’s in use. Included Windows License.
Name | vCPUs | RAM | EPC Size | Storage | Bandwidth | Price |
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Prices before tax.
GPU instances (Gen 1) – Linux OS Based
Production Grate instances (2nd Generation Intel® Xeon® Scalable Processors and Nvidia Video cards) - Better for workloads with graphic resources needs. Used for complicated calculations (for example CAD, AI/ML, rendering).
Name | vCPUs | RAM | GPU | Storage | Bandwidth | Price |
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Prices before tax.
GPU instances (Gen 1) – Windows OS Based
Production Grate instances (2nd Generation Intel® Xeon® Scalable Processors and Nvidia Video cards) - Better for workloads with graphic resources needs. Used for complicated calculations (for example CAD, AI/ML, rendering). Included Windows License.
Name | vCPUs | RAM | GPU | Storage | Bandwidth | Price |
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Prices before tax.
GPU with High-Frequency CPU instances (Gen 1) – Linux OS Based
Production Grate instances (2nd Generation Intel® Xeon® Scalable Processors and Nvidia Video cards) - combine graphics performance with an high-frequency vCPU.
Name | vCPUs | RAM | GPU | Storage | Bandwidth | Price |
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Prices before tax.
GPU with High-Frequency CPU instances (Gen 1) – Windows OS Based
Production Grate instances (2nd Generation Intel® Xeon® Scalable Processors and Nvidia Video cards) - combine graphics performance with an high-frequency vCPU. Included Windows License.
Name | vCPUs | RAM | GPU | Storage | Bandwidth | Price |
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Prices before tax.
Standard instances (Gen 0) – Linux OS Based
Production-grade instances designed for a wide range of workloads and predictable performance. Intel® Xeon® E5 v2-v4 Family Processors.
Name | vCPUs | RAM | Storage | Bandwidth | Price |
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Prices before tax.
Standard instances (Gen 0) – Windows OS Based
Production-grade instances designed for a wide range of workloads and predictable performance. Intel® Xeon® E5 v2-v4 Family Processors.
Name | vCPUs | RAM | Storage | Bandwidth | Price |
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Prices before tax.
Block Storage
High-performance SSD and HDD network-attached persistent volumes for Virtual instances and Managed Kubernetes.
Name | IOPS per 1GB | BandwidthMB/s per 1GB | Price |
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Prices before tax.
Snapshots
Name | Price |
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Prices before tax.
Load Balancers
Name | Members | Bandwidth | Price |
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Prices before tax.
Private Networks
IP addresses
Egress Traffic
Functions
Managed Kubernetes
Name | HA Control Plane | Worker Nodes | Node pricing Price (STATIC) | Max nodes per cluster | |
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Managed Kubernetes | Free | Virtual Instances |
|
20 |
Prices before tax.
Standard Bare Metal Instances (Gen 1) – Linux OS Based
Getting direct access to physical machines immediately produces substantial performance benefits while also reducing costs in most cases.
Name | CPU | RAM | Disks | Network | Traffic | Price |
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Prices before tax.
Standard Bare Metal Instances (Gen 1) – Windows OS Based
Getting direct access to physical machines immediately produces substantial performance benefits while also reducing costs in most cases. Included Windows License.
Name | CPU | RAM | Disks | Network | Traffic | Price |
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Prices before tax.
Standard Bare Metal Instances (Gen 0) – Linux OS Based
Getting direct access to physical machines immediately produces substantial performance benefits while also reducing costs in most cases.
Name | CPU | RAM | Disks | Network | Traffic | Price |
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Prices before tax.
Standard Bare Metal Instances (Gen 0) – Windows OS Based
Getting direct access to physical machines immediately produces substantial performance benefits while also reducing costs in most cases. Included Windows License.
Name | CPU | RAM | Disks | Network | Traffic | Price |
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Prices before tax.
Standard Bare Metal Instances (Gen 2) – Linux OS Based
Getting direct access to physical machines immediately produces substantial performance benefits while also reducing costs in most cases.
Name | CPU | RAM | Disks | Network | Traffic | Price |
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Prices before tax.
Standard Bare Metal Instances (Gen 2) – Windows OS Based
Getting direct access to physical machines immediately produces substantial performance benefits while also reducing costs in most cases. Included Windows License.
Name | CPU | RAM | Disks | Network | Traffic | Price |
---|
Prices before tax.
Load Balancers
Name | Members | Bandwidth | Price |
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Prices before tax.
Private Networks
IP addresses
Egress Traffic
Logging Service
With G-Core Managed Logging service, you get direct access to the OpenSearch open-source API so that code and applications client is already using with your existing Elasticsearch, or OpenSearch environments will work seamlessly
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