RDP GPU Server, RDP with GPU, Remote Desktop GPU

RDP with GPU allows users to remotely connect to a computer with a GPU and leverage its processing power to accelerate graphic-intensive applications, such as video rendering, 3D modeling, and game streaming. GPU RDP is commonly used in industries such as media and entertainment, architecture, engineering, and gaming, where high-quality graphics are crucial for business operations.

RDP with GPU Pricing, GPU Accelerated Remote Desktop

You can select an RDP server from VPS and dedicated servers. The quantity and type of GPU, RAM, and storage will affect the price. Dedicated servers provide more control over server configuration and can provide higher levels of performance and reliability.

Express GPU VPS - GT730

21.00/m
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  • 8GB RAM
  • 6 CPU Cores
  • 120GB SSD
  • 100Mbps Unmetered Bandwidth
  • Once per 4 Weeks Backup
  • OS: Linux / Windows 10
  • Dedicated GPU: GeForce GT730
  • CUDA Cores: 384
  • GPU Memory: 2GB DDR3
  • FP32 Performance: 0.692 TFLOPSreport

Express GPU VPS - K620

21.00/m
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  • 12GB RAM
  • 9 CPU Cores
  • 160GB SSD
  • 100Mbps Unmetered Bandwidth
  • Once per 4 Weeks Backup
  • OS: Linux / Windows 10
  • Dedicated GPU: Quadro K620
  • CUDA Cores: 384
  • GPU Memory: 2GB DDR3
  • FP32 Performance: 0.863 TFLOPSreport

Basic GPU VPS - P600

29.00/m
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  • 16GB RAM
  • 12 CPU Cores
  • 200GB SSD
  • 200Mbps Unmetered Bandwidth
  • Once per 4 Weeks Backup
  • OS: Linux / Windows 10
  • Dedicated GPU: Quadro P600
  • CUDA Cores: 384
  • GPU Memory: 2GB GDDR5
  • FP32 Performance: 1.2 TFLOPSreport

Lite GPU - GT710

45.00/m
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  • 16GB RAM
  • Quad-Core Xeon X3440report
  • 120GB + 960GB SSD
  • 100Mbps-1Gbpsreport
  • OS: Windows / Linux
  • GPU: Nvidia GeForce GT710
  • Microarchitecture: Kepler
  • Max GPUs: 1
  • CUDA Cores: 192
  • GPU Memory: 1GB DDR3
  • FP32 Performance: 0.336 TFLOPSreport

Lite GPU - K620

49.00/m
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  • 16GB RAM
  • Quad-Core Xeon E3-1270v3report
  • 120GB + 960GB SSD
  • 100Mbps-1Gbpsreport
  • OS: Windows / Linux
  • GPU: Nvidia Quadro K620
  • Microarchitecture: Maxwell
  • Max GPUs: 1
  • CUDA Cores: 384
  • GPU Memory: 2GB DDR3
  • FP32 Performance: 0.863 TFLOPSreport

Express GPU - P600

52.00/m
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  • 32GB RAM
  • Quad-Core Xeon E5-2643report
  • 120GB + 960GB SSD
  • 100Mbps-1Gbpsreport
  • OS: Windows / Linux
  • GPU: Nvidia Quadro P600
  • Microarchitecture: Pascal
  • Max GPUs: 1
  • CUDA Cores: 384
  • GPU Memory: 2GB GDDR5
  • FP32 Performance: 1.2 TFLOPSreport

Express GPU - P620

59.00/m
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  • 32GB RAM
  • Eight-Core Xeon E5-2670report
  • 120GB + 960GB SSD
  • 100Mbps-1Gbpsreport
  • OS: Windows / Linux
  • GPU: Nvidia Quadro P620
  • Microarchitecture: Pascal
  • Max GPUs: 1
  • CUDA Cores: 512
  • GPU Memory: 2GB GDDR5
  • FP32 Performance: 1.5 TFLOPSreport

Express GPU - P1000

64.00/m
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  • 32GB RAM
  • Eight-Core Xeon E5-2690report
  • 120GB + 960GB SSD
  • 100Mbps-1Gbpsreport
  • OS: Windows / Linux
  • GPU: Nvidia Quadro P1000
  • Microarchitecture: Pascal
  • Max GPUs: 1
  • CUDA Cores: 640
  • GPU Memory: 4GB GDDR5
  • FP32 Performance: 1.894 TFLOPSreport

Basic GPU - GTX 1650

99.00/m
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  • 64GB RAM
  • Eight-Core Xeon E5-2667v3report
  • 120GB + 960GB SSD
  • 100Mbps-1Gbpsreport
  • OS: Windows / Linux
  • GPU: Nvidia GeForce GTX 1650
  • Microarchitecture: Turing
  • Max GPUs: 1
  • CUDA Cores: 896
  • GPU Memory: 4GB GDDR5
  • FP32 Performance: 3.0 TFLOPSreport
Spring Sale

Basic GPU - T1000

79.2/m
Save 20% (Was $99.00)
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  • 64GB RAM
  • Eight-Core Xeon E5-2690report
  • 120GB + 960GB SSD
  • 100Mbps-1Gbpsreport
  • OS: Windows / Linux
  • GPU: Nvidia Quadro T1000
  • Microarchitecture: Turing
  • Max GPUs: 1
  • CUDA Cores: 896
  • GPU Memory: 8GB GDDR6
  • FP32 Performance: 2.5 TFLOPSreport

Basic GPU - K80

109.00/m
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  • 64GB RAM
  • Eight-Core Xeon E5-2690report
  • 120GB + 960GB SSD
  • 100Mbps-1Gbpsreport
  • OS: Windows / Linux
  • GPU: Nvidia Tesla K80
  • Microarchitecture: Turing
  • Max GPUs: 2report
  • CUDA Cores: 4992
  • GPU Memory: 24GB GDDR5
  • FP32 Performance: 8.73 TFLOPSreport

Basic GPU - RTX 4060

149.00/m
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  • 64GB RAM
  • Eight-Core E5-2690report
  • 120GB SSD + 960GB SSD
  • 100Mbps-1Gbpsreport
  • OS: Windows / Linux
  • GPU: Nvidia GeForece RTX 4060
  • Microarchitecture: Ada Lovelace
  • Max GPUs: 2report
  • CUDA Cores: 3072
  • Tensor Cores: 96
  • GPU Memory: 8GB GDDR6
  • FP32 Performance: 15.11 TFLOPSreport

Professional GPU VPS - A4000

129.00/m
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  • 32GB RAM
  • 24 CPU Cores
  • 320GB SSD
  • 300Mbps Unmetered Bandwidth
  • Once per 2 Weeks Backup
  • OS: Linux / Windows 10
  • Dedicated GPU: Quadro RTX A4000
  • CUDA Cores: 6,144
  • Tensor Cores: 192
  • GPU Memory: 16GB GDDR6
  • FP32 Performance: 19.2 TFLOPSreport

Basic GPU - GTX 1660

139.00/m
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  • 64GB RAM
  • Dual 10-Core Xeon E5-2660v2report
  • 120GB + 960GB SSD
  • 100Mbps-1Gbpsreport
  • OS: Windows / Linux
  • GPU: Nvidia GeForce GTX 1660
  • Microarchitecture: Turing
  • Max GPUs: 1
  • CUDA Cores: 1408
  • GPU Memory: 6GB GDDR6
  • FP32 Performance: 5.0 TFLOPSreport

Advanced GPU - V100

229.00/m
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  • 128GB RAM
  • Dual 12-Core E5-2690v3report
  • 240GB SSD + 2TB SSD
  • 100Mbps-1Gbpsreport
  • OS: Windows / Linux
  • GPU: Nvidia V100
  • Microarchitecture: Volta
  • Max GPUs: 1
  • CUDA Cores: 5,120
  • Tensor Cores: 640
  • GPU Memory: 16GB HBM2
  • FP32 Performance: 14 TFLOPSreport
Spring Sale

Professional GPU - RTX 2060

111.3/m
Save 30% (Was $159.00)
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  • 128GB RAM
  • Dual 10-Core E5-2660v2report
  • 120GB + 960GB SSD
  • 100Mbps-1Gbpsreport
  • OS: Windows / Linux
  • GPU: Nvidia GeForce RTX 2060
  • Microarchitecture: Ampere
  • Max GPUs: 2report
  • CUDA Cores: 1920
  • Tensor Cores: 240
  • GPU Memory: 6GB GDDR6
  • FP32 Performance: 6.5 TFLOPSreport

Advanced GPU - RTX 3060 Ti

179.00/m
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  • 128GB RAM
  • Dual 12-Core E5-2697v2report
  • 240GB SSD + 2TB SSD
  • 100Mbps-1Gbpsreport
  • OS: Windows / Linux
  • GPU: GeForce RTX 3060 Ti
  • Microarchitecture: Ampere
  • Max GPUs: 2report
  • CUDA Cores: 4864
  • Tensor Cores: 152
  • GPU Memory: 8GB GDDR6
  • FP32 Performance: 16.2 TFLOPSreport

Advanced GPU - A4000

209.00/m
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  • 128GB RAM
  • Dual 12-Core E5-2697v2report
  • 240GB SSD + 2TB SSD
  • 100Mbps-1Gbpsreport
  • OS: Windows / Linux
  • GPU: Nvidia Quadro RTX A4000
  • Microarchitecture: Ampere
  • Max GPUs: 2report
  • CUDA Cores: 6144
  • Tensor Cores: 192
  • GPU Memory: 16GB GDDR6
  • FP32 Performance: 19.2 TFLOPSreport

Advanced GPU - A5000

269.00/m
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  • 128GB RAM
  • Dual 12-Core E5-2697v2report
  • 240GB SSD + 2TB SSD
  • 100Mbps-1Gbpsreport
  • OS: Windows / Linux
  • GPU: Nvidia Quadro RTX A5000
  • Microarchitecture: Ampere
  • Max GPUs: 2report
  • CUDA Cores: 8192
  • Tensor Cores: 256
  • GPU Memory: 24GB GDDR6
  • FP32 Performance: 27.8 TFLOPSreport

Enterprise GPU - A40

439.00/m
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  • 256GB RAM
  • Dual 18-Core E5-2697v4report
  • 240GB SSD + 2TB NVMe + 8TB SATA
  • 100Mbps-1Gbpsreport
  • OS: Windows / Linux
  • GPU: Nvidia A40
  • Microarchitecture: Ampere
  • Max GPUs: 1
  • CUDA Cores: 10,752
  • Tensor Cores: 336
  • GPU Memory: 48GB GDDR6
  • FP32 Performance: 37.48 TFLOPSreport

RDP GPU Server Specialists Help You Solve Any Hardware Issues

Microsoft Windows Remote Desktop does not allow GPU rendering by default. Starting graphic-intensive software may cause errors. Therefore, running engineering software and other graphic-intensive software in a Windows remote desktop environment may be challenging. Renting the RDP GPU server will solve this problem perfectly and avoid the trouble of related hardware settings.
No Compatibility Issues

No Compatibility Issues

Not all GPU models are compatible with RDP, so it is very important to equip the RDP server with the appropriate GPU model. Our GPU RDP server ensures that there is no compatibility problem.
Loose Bandwidth Limit

Loose Bandwidth Limit

GPU RDP requires a high-speed internet connection to ensure smooth transmission of graphics data between local and remote computers. If the internet connection is slow, the graphics output may be slow or delayed.
Security Assurance

Security Assurance

Remote access to computers with GPU may bring security risks, so it is very important to implement appropriate security measures. We will provide you with a firewall, VPN, and other protective measures to ensure the security of your server.
Avoid Software Conflicts

Avoid Software Conflicts

When the local and remote computers have different software configurations or operating systems, software conflict may occur when GPU RDP. So we provide you with a variety of os options, which you can choose freely.

Benefits of Using GPU RDP Server and GPU Accelerated Remote Desktop

GPU RDP provides a cost-effective and efficient solution for accessing powerful hardware and improving graphics performance, while also offering increased flexibility and mobility in work and collaboration.
Reduce Hardware Costs

Reduce Hardware Costs

By using GPU RDP, users can achieve fast rendering and high-quality graphics without investing in expensive graphics cards. Instead, they can remotely access powerful hardware and take advantage of its processing power without purchasing or maintaining it.
Scalability

Scalability

GPU RDP allows easy expansion because users can quickly add or delete virtual machines according to changes in computing requirements. This flexibility allows enterprises to expand their resources to meet their needs without investing in additional hardware or infrastructure.
Secure Data Storage

Secure Data Storage

GPU RDP is used to store data on remote servers rather than local machines, which can provide an additional security layer to prevent data loss or theft. In addition, the remote server can be backed up regularly to further prevent data loss.
Improved Graphics Performance

Improved Graphics Performance

GPU RDP allows for the use of a remote computer's GPU to accelerate graphic-intensive applications, resulting in improved graphics performance and faster rendering times.
Increased Productivity

Increased Productivity

With improved graphics performance and remote access to powerful hardware, GPU RDP can increase productivity and efficiency in completing graphic-intensive tasks, such as 3D modeling, video editing, and game development.
Remote Work Capability

Remote Work Capability

With the increasing number of telework, staff can access graphic-intensive applications from anywhere through the Internet connection. This flexibility allows team members around the world to work from home.

Comparison of RDP with and without GPU

The choice between using RDP with or without GPU acceleration depends on the specific requirements of the application and the hardware available. For applications that require graphic-intensive processing, RDP with GPU acceleration is often the preferred option, as it offers faster performance and improved graphics capabilities. However, for applications with lower graphics requirements or limited hardware resources, RDP without GPU acceleration may be more cost-effective and viable.
RDP with GPU
check_circleImproved graphics capabilities: RDP with GPU acceleration offers improved graphics capabilities and is better suited for running graphics-intensive applications such as gaming, video editing, or 3D modeling.
cancelLimited graphics capabilities: RDP without GPU acceleration has limited graphics capabilities and may not be suitable for running graphics-intensive applications such as gaming, video editing, or 3D modeling.
check_circleFaster performance: With GPU, the RDP session can utilize the power of the GPU for processing, resulting in faster performance and improved responsiveness.
cancelLower performance: Without GPU, the RDP session relies solely on the CPU for processing, which can lead to slower performance and reduced responsiveness.
check_circleHigher image quality: RDP with GPU can provide higher image quality, especially when viewing high-resolution images or videos.
cancelLower image quality: RDP without GPU may have lower image quality, especially when viewing high-resolution images or videos.
check_circleHigher hardware requirements: RDP with GPU may require higher hardware requirements, which can be more expensive to set up and maintain.
cancelLower hardware requirements: RDP without GPU may require lower hardware requirements, making it a more cost-effective option for certain applications.
RDP without GPU
check_circleImproved graphics capabilities: RDP with GPU acceleration offers improved graphics capabilities and is better suited for running graphics-intensive applications such as gaming, video editing, or 3D modeling.
cancelLimited graphics capabilities: RDP without GPU acceleration has limited graphics capabilities and may not be suitable for running graphics-intensive applications such as gaming, video editing, or 3D modeling.
check_circleFaster performance: With GPU, the RDP session can utilize the power of the GPU for processing, resulting in faster performance and improved responsiveness.
cancelLower performance: Without GPU, the RDP session relies solely on the CPU for processing, which can lead to slower performance and reduced responsiveness.
check_circleHigher image quality: RDP with GPU can provide higher image quality, especially when viewing high-resolution images or videos.
cancelLower image quality: RDP without GPU may have lower image quality, especially when viewing high-resolution images or videos.
check_circleHigher hardware requirements: RDP with GPU may require higher hardware requirements, which can be more expensive to set up and maintain.
cancelLower hardware requirements: RDP without GPU may require lower hardware requirements, making it a more cost-effective option for certain applications.

Optional Add-Ons for RDP with GPU Plans

Add additional resources or services to your current servers to meet your business needs.
Additional Memory16GB: $10.00/month
32GB: $18.00/month
64GB: $32.00/month
128GB: $56.00/month
256GB: $96.00/month
Additional Dedicated IP$2.00/month/IPv4 or IPv6IP purpose required. Maximum 16 per package.
Additional SSD Drives240GB SSD: $9.00/month
960GB SSD: $19.00/month
2TB SSD: $29.00/month
4TB SSD: $39.00/month
Additional SATA Drives2TB SATA: $19.00/month
4TB SATA: $29.00/month
8TB SATA: $39.00/month
16TB SATA (3.5’ Only): $49.00/month
Shared Hardware Firewall$29.00/monthShared firewall is used by 2-7 users who share a single Cisco ASA 5520 firewall, including shared bandwidth. It does not have superuser privileges.
Dedicated Hardware Firewall$99.00/monthDedicated firewall allocates one user to a Cisco ASA 5520/5525 firewall, providing superuser access for independent and personalized configurations, such as firewall rules and VPN settings.
Bandwidth UpgradeUpgrade to 200Mbps(Shared): $10.00/month
Upgrade to 1Gbps(Shared): $20.00/month
The bandwidth of your server represents the maximum available bandwidth. Real-time bandwidth usage depends on the current situation in the rack where your server is located and the shared bandwidth with other servers. The speed you experience may also be influenced by your local network and geographical distance from the server.
Private Network$10.00/month
Additional GPU CardsNvidia Tesla K80: $99.00/month
Nvidia RTX 2060: $99.00/month
Nvidia RTX 3060 Ti: $149.00/month
Nvidia RTX 4060: $149.00/month
Nvidia RTX A4000: $159.00/month
Nvidia RTX A5000: $229.00/month
HDMI Dummy$15 setup fee per serverA one-time setup fee is charged for each server and cannot be transferred to other servers.

FAQs about Remote Desktop Use GPU and RDP with GPU

What is remote desktop use GPU?

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Remote desktop use GPU refers to the ability to use a remote computer's GPU for rendering graphics and accelerating graphics-intensive applications.

Can RDP use GPU?

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Yes, RDP (Remote Desktop Protocol) can use GPU (graphics processing unit) to improve graphics performance and accelerate graphics-intensive applications. This is known as RDP nvidia GPU, which enables the remote desktop session to utilize the power of the GPU to enhance the performance of applications that rely on graphics processing.

RDP nvidia GPU can be particularly useful for tasks such as video editing, gaming, 3D modeling, and machine learning, as these applications require a significant amount of graphics processing power. By enabling GPU acceleration in an RDP session, users can improve the overall performance and speed of these applications.

However, it is important to note that not all RDP setups support GPU. The ability to use GPU in an RDP session may depend on the specific hardware and software being used. It is recommended to consult with a professional or follow the instructions provided by the GPU and software manufacturers for specific guidance on how to enable GPU acceleration for RDP.

How do I use RDP for graphics card?

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To use RDP (Remote Desktop Protocol) for GPU (graphics processing unit), you need to have a GPU accelerated remote desktop. Here are the general steps to use RDP for GPU:

Set up a GPU accelerated remote desktop: You can use a cloud-based service or set up a dedicated server that supports RDP with GPU .

Install the necessary drivers and software: Install the appropriate GPU drivers and software on both the remote computer and the local computer to ensure compatibility.

Configure the remote desktop to allow remote desktop GPU: In the remote desktop environment, configure the settings to allow GPU acceleration for RDP sessions.

Connect to the remote desktop: Using an RDP client on your local computer, connect to the remote desktop environment and start an RDP session.

Enable remote desktop GPU: Once you have connected to the remote desktop, check the settings of the RDP client to ensure that remote desktop GPU is enabled.

Launch applications that require remote desktop GPU: After you have enabled GPU acceleration, you can launch applications that require GPU acceleration, such as 3D modeling, video editing, gaming, and machine learning.

How can I increase my RDP FPS?

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To increase the frames per second (FPS) in an RDP (Remote Desktop Protocol) session, you can try the following tips:

Increase the network speed: If the network connection is slow, it can result in a lower FPS. Make sure you have a fast and stable network connection.

Reduce the resolution: Decreasing the resolution can help increase the FPS in the RDP session. You can try reducing the display resolution on the remote desktop or reducing the size of the RDP window.

Disable unnecessary features: Disabling certain features such as desktop background, themes, and animations can help improve the performance of the RDP session and increase the FPS.

Enable hardware acceleration: Enabling GPU hardware acceleration can improve the graphics performance of the RDP session and increase the FPS. This feature is available in some RDP clients, and you can check the settings to enable it.

Increase server resources: If you have access to the server that you are connecting to, you can try increasing its resources, such as RAM, CPU, and GPU to improve the performance of the RDP session and increase the FPS.

Use a different RDP client: Sometimes, using a different RDP client can improve the FPS. You can try using a different RDP client and compare the FPS to see if it improves.

Is GPU RDP accelerated?

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Yes, RDP (Remote Desktop Protocol) can be GPU accelerated, which means that the remote desktop session can use the graphics processing unit (GPU) of the remote computer to improve graphics performance and accelerate graphic-intensive applications. This can be particularly useful for tasks such as video editing, gaming, 3D modeling, and machine learning. However, RDP GPU may not be available on all remote desktop setups and may depend on the specific hardware and software being used. It is recommended to consult with a professional or follow the instructions provided by the GPU and software manufacturers for specific guidance on how to enable Windows remote desktop GPU.