What are the Devices and Applications of the Xilinx QPro Virtex 2.5V Radiation-Hardened FPGAs?

Table of Contents

The Xilinx QPro Virtex 2.5V Radiation-Hardened FPGAs offer high-capacity, high-performance logic solutions that are programmable.

Sudden increases in the efficiency of silicon stems from the optimization of this new architecture to achieve efficiency and also exploit a 5-layer-metal that is aggressive and has a CMOS process of 0.22 µm.

With these advances, QPro Virtex FPGAs become flexible and powerful alternatives to gate arrays that are mask-programmed. Furthermore, the Xilinx QPro Virtex 2.5V Radiation-Hardened FPGAs are made up of three main members.

Adding more to the experience got from initial FPGA generations, this Virtex family stands as a great step of revolution in logic designs that are programmable. Combining different features of a programmable system, a rich ladder of flexible, fast, interconnect resources, as well as an advanced process technology, this Xilinx QPro Virtex 2.5V Radiation-Hardened FPGAs offers a high-capacity and high-speed logic solution that is programmable, which enhances flexibility of design, while leading to a reduction of time-to-market.

In this review, we will be discussing the features of the Xilinx QPro Virtex 2.5V Radiation-Hardened FPGAs devices, its applications, and more. Please continue reading to understand the topic better.

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Devices of the Xilinx QPro Virtex 2.5V Radiation-Hardened FPGAs

There are 59 devices of the Xilinx QPro Virtex 2.5V Radiation-Hardened FPGAs. These are outlined below:

XQVR300-4CB228Q XQVR600-4CB228Q XQVR600-4CB228V

XQVR600-4CB228M XQVR600-3CB228V XQVR600-4CB228I

XQVR600-3CB228M XQVR600-2CB228V XQVR600-3CB228I

XQVR600-2CB228M XQVR600-1CB228V XQVR600-2CB228I

XQVR600-1CB228M XQVR300-4CB228V XQVR600-1CB228I

XQVR300-4CB228M XQVR300-4CB228B XQVR300-4CB228I

XQVR300-3CB228V XQVR300-3CB228M XQVR300-3CB228Q

XQVR300-3CB228I XQVR300-2CB228Q XQVR300-2CB228V

XQVR300-2CB228M XQVR300-1CB228V XQVR300-2CB228I

XQVR300-1CB228Q XQVR300-1CB228I XQVR300-1CB228M

XQVR1000-5CG560V XQVR1000-5CG560M XQVR1000-5CG560Q

XQVR1000-4CGG560Q XQVR1000-4CG560Q XQVR1000-4CG560V

XQVR1000-4CG560M XQVR1000-4BG560R XQVR1000-4CG560I

XQVR1000-4BG560N XQVR1000-3CG560V XQVR1000-4BG560I

XQVR1000-3CG560Q XQVR1000-3CG560I XQVR1000-3CG560M

XQVR1000-3BG560N XQVR1000-2CG560V XQVR1000-3BG560I

XQVR1000-2CG560Q XQVR1000-2CG560I XQVR1000-2CG560M

XQVR1000-2BG560N XQVR1000-1CG560V XQVR1000-2BG560I

XQVR1000-1CG560Q XQVR1000-1CG560I XQVR1000-1CG560M

XQVR1000-1BG560N XQVR1000-1BG560I

Frequently Asked Questions of the Xilinx QPro Virtex 2.5V Radiation-Hardened FPGA Devices

Does the price of these Xilinx QPro Virtex 2.5V Radiation-Hardened FPGAs devices fluctuate very frequently?

 

 xilinx virtex price

The search engine of the FPGA key helps in monitoring the price and quantity of the suppliers of the electronic equipment in regular records and real time price data from history. To form a basis for your buying decisions, you can check the electrical components’ price trends from historical data.

Is signing up on the website necessary before making an inquiry for the Xilinx QPro Virtex 2.5V Radiation-Hardened FPGA Devices?

Signing up on the website isn’t necessary for making an inquiry on these devices. However, signing up becomes necessary for resource downloads and to post comments.

How best can I get tools for software development that is related to the platform of the Xilinx FPGA?

For the FPGA design tools, the easiest to use is the Vivado Design Suite. This is done by Xilinx. As regards its synthesis, as well as implementation, the device is user-friendly and in contrast to the ISE design tools, it is much easier to use.

This choice has to do with functional requirements and personal habits to specifically choose a better match. Searching and downloading is achievable via the resource channel of the FPGA.

What do I do if technical support for the Xilinx QPro Virtex 2.5V Radiation-Hardened FPGA Devices does get to you on time?

Now, this depends on the difference in time between the company’s location and your location. The company may take time to respond, but you should be patient. The company’s technical engineer will assist you with the replacement, pinout information, starter kit, programming tools, datasheet, etc.

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How do I get the technical support documents for each of the Xilinx QPro Virtex 2.5V Radiation-Hardened FPGA Devices?

To get the technical support documents for each of the Xilinx QPro Virtex 2.5V Radiation-Hardened FPGA Devices, all you need to do is to type each of the numbers, say “XQVR300-4CB228Q”, in the website’s search box. Another alternative is searching for these via the FPGA Forum or the Download Channel.

Where is the best place to buy the starter kit, evaluation boards, and development boards of the Xilinx QPro Virtex 2.5V Radiation-Hardened FPGA Devices?

For now, the FPGAkey fails to offer the purchase services of these sites. However, some customers usually make consultations regarding the Basys 3 board, ZedBoard, Diligent Arty S7, Terasic DE10-Nano, Nexys4-DDR, TinyFPGA BX, etc. However, if you desire to have some technical information, then you can submit a feedback and the company’s technicians will reach out to you.

Let’s consider the features of some of these Xilinx QPro Virtex 2.5V Radiation-Hardened FPGAs Devices.

Features of the Xilinx QPro Virtex 2.5V Radiation-Hardened FPGAs

XQVR300-4CB228Q

Features of XQVR300-4CB228Q

  • QML certified
  • Flexible architecture, which balances density and speed
  • Cascade chain that delivers wide-input functions
  • Densities that range from system gates of 100k – 1M
  • Abundant latches/registers with clock, as well as asynchronous/synchronous reset and set
  • Wide range of selection of workstation and PC platforms
  • Lots of Reprogrammability
  • In-system SRAM-based configuration
  • Total support for Design Manager, Macros that are Relationally Placed, and Unified Libraries
  • Die-temperature sensor device
  • Dedicated support for multiplier
  • 5-layer 0.22 µm epitaxial process
  • SEU immunity, which is achievable using redundancy implementation
  • System performance to reach 200 MHz
  • Fast, Field-programmable high-density Gate Arrays
  • Latch-up immune
  • Ensured ionizing dosethat can reach 100K Rad(si)
  • 3-state internal bussing
  • Carry logic that is dedicated to ensuringhigh-speed arithmetic

XQVR600-4CB228Q

Features of XQVR600-4CB228Q

  • 5-layer 0.22 µm epitaxial process
  • Latch-up immune
  • 16 interface standards of high performance
  • QML certified
  • SEU immunity, which is achievable using redundancy implementation
  • Densities that range from system gates of 100k – 1M
  • Also present is a direct connection to the ZBTRAM devices
  • Four DLLs to ensure better clock control
  • LUTs that are configurable as 16-bit Shift Register, dual-ported 16-bit RAM, 32-bit RAM, and 16-bit RAM
  • Boundary scan logic
  • 3-state internal bussing
  • Hot-swappable, which works for PCI that is compact
  • FPGAs hardened through radiation for satellite and space applications
  • Ensured ionizing doze that can reach 100K Rad(si)
  • In-built circuitry for clock-management
  • Also present is a dual-ported configurable synchronous 4k-bit RAMS
  • Fast, Field-programmable high-density Gate Arrays
  • System performance to reach 200 MHz
  • SelectIO interfaces (multi-standard)
  • Abundant latches/registers with clock, as well as asynchronous/synchronous reset and set
  • Multiplier support that is dedicated
  • Cascade chain to deliver wide-input functions
  • Flexible architecture, which balances density and speed

XQVR600-4CB228V

Features of XQVR600-4CB228V

  • 5-layer 0.22 µm epitaxial process
  • Four DLLs (delay-locked loops) to ensure better clock control
  • Flexible architecture, which balances density and speed
  • Also present are abundant latches/registers with clock, as well as asynchronous/synchronous reset and set
  • Direct connection to the ZBTRAM devices
  • In-built circuitry for clock-management
  • Cascade chain to deliver wide-input functions
  • Also present are LUTs that are configurable as 16-bit Shift Register, dual-ported 16-bit RAM, 32-bit RAM, and 16-bit RAM
  • Also present is a memory system that is hierarchical
  • FPGAs hardened through radiation for satellite and space applications
  • Fast, Field-programmable high-density Gate Arrays
  • Also present is a 16 interface standards of high performance
  • SEU immunity, which is achievable using redundancy implementation
  • Densities that range from system gates of 100k – 1M

XQVR600-4CB228M

Features of the XQVR600-4CB228M

  • 16 interface standards of high performance
  • 5-layer 0.22 µm epitaxial process
  • Direct connection to the ZBTRAM devices
  • System performance to reach 200 MHz
  • Also present are four DLLs (delay-locked loops) to ensure better clock control
  • SEU immunity, which is achievable using redundancy implementation
  • QML certified
  • LUTs that are configurable as 16-bit Shift Register, dual-ported 16-bit RAM, 32-bit RAM, and 16-bit RAM
  • Flexible architecture which balances density and speed
  • Also present is a 3-state internal bussing
  • Four primary global low-skew nets for clock distribution, in addition to 24 global nets (secondary)
  • Cascade chain to deliver wide-input functions
  • Dedicated support for multiplier
  • Carry logic that is dedicated to ensuringhigh-speed arithmetic

XQVR600-3CB228V

Features of the XQVR600-3CB228V

  • 5-layer 0.22 µm epitaxial process
  • FPGAs hardened through radiation for satellite and space applications
  • QML certified
  • Ensured ionizing doze that can reach 100K Rad(si)
  • System performance to reach 200 MHz
  • Hot-swappable, which works for PCI that is compact
  • Also present are four DLLs (delay-locked loops) to ensure better clock control
  • LUTs that are configurable as 16-bit Shift Register, dual-ported 16-bit RAM, 32-bit RAM, and 16-bit RAM
  • Flexible architecture which balances density and speed
  • Carry logic that is dedicated to ensuringhigh-speed arithmetic
  • Also present is a 3-state internal bussing
  • Direct connection to ZBTRAM devices
  • Abundant latches/registers with clock, as well as asynchronous/synchronous reset and set
  • Dedicated support for multiplier

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XQVR600-4CB228I

Features of the XQVR600-4CB228I

  • QML certified
  • LUTs that are configurable as 16-bit Shift Register, dual-ported 16-bit RAM, 32-bit RAM, and 16-bit RAM
  • Flexible architecture, which balances density and speed
  • Cascade chain that delivers wide-input functions
  • Four primary global low-skew nets for clock distribution, in addition to 24 global nets (secondary)
  • Densities that range from system gates of 100k – 1M
  • Also present is are abundant latches/registers with clock, as well as asynchronous/synchronous reset and set
  • 5-layer 0.22 µm epitaxial process
  • SEU immunity, which is achievable using redundancy implementation
  • Also present is a system performance to reach 200 MHz
  • Fast, Field-programmable high-density Gate Arrays
  • Ensured ionizing dosethat can reach 100K Rad(si)
  • 3-state internal bussing
  • Carry logic that is dedicated to ensuringhigh-speed arithmetic
  • Also present are SelectIO interfaces (multi-standard)
  • In-built circuitry for clock-management

XQVR600-3CB228M

Features of XQVR600-3CB228M

  • Ensured ionizing dosethat can reach 100K Rad(si)
  • Fast, Field-programmable high-density Gate Arrays
  • Ensured over the full range of temperature for the military: -55 degrees centigrade to +125 degrees centigrade.
  • QML certified
  • Memory system that is hierarchical
  • Multiplier support that is dedicated
  • 3-state internal bussing
  • In addition, there’s a flexible architecture which balances density and speed
  • Four primary global low-skew nets for clock distribution, in addition to 24 global nets (secondary)
  • Abundant latches/registers with clock, as well as asynchronous/synchronous reset and set
  • In addition, there’s SEU immunity, which is achievable using redundancy implementation
  • 16 interface standards of high performance
  • 5-layer 0.22 µm epitaxial process
  • Direct connection to ZBTRAM devices
  • Densities that range from system gates of 100k – 1M

XQVR600-2CB228V

Features of the XQVR600-2CB228V

  • Ensured over the full range of temperature for the military: -55 degrees centigrade to +125 degrees centigrade.
  • Densities that range from system gates of 100k – 1M
  • In addition, there’s a 16 interface standards of high performance
  • In-built circuitry for clock management
  • SEU immunity, which is achievable using redundancy implementation
  • Four primary global low-skew nets for clock distribution, in addition to 24 global nets (secondary)
  • Ensured ionizing doze that can reach 100K Rad(si)
  • LUTs that are configurable as 16-bit Shift Register, dual-ported 16-bit RAM, 32-bit RAM, and 16-bit RAM
  • Carry logic that is dedicated to ensuringhigh-speed arithmetic
  • In addition, there’s are four DLLs (delay-locked loops) to ensure better clock control

XQVR600-3CB228I

Features of XQVR600-3CB228I

  • Hot-swappable, which works for PCI that is compact
  • In addition, there’s an in-built circuitry for clock management
  • Ensured ionizing doze that can reach 100K Rad(si)
  • 4 primary global low-skew nets for clock distribution, in addition to 24 global secondary nets
  • Fast, Field-programmable high-density Gate Arrays
  • Dual-ported configurable synchronous 4k-bit RAMs
  • Abundant latches/registers with clock, as well as asynchronous/synchronous reset and set
  • 3-state internal bussing
  • 5-layer 0.22 µm epitaxial process
  • Ensured over the full range of temperature for the military: -55 degrees centigrade to +125 degrees centigrade.
  • Flexible architecture which balances density and speed
  • 16 interface standards of high performance

XQVR600-2CB228M

Features of XQVR600-2CB228M

  • LUTs that are configurable as 16-bit Shift Register, dual-ported 16-bit RAM, 32-bit RAM, and 16-bit RAM
  • In addition, there’s a dual-ported configurable synchronous 4k-bit RAMs
  • Direct connection to ZBTRAM devices
  • Memory system that is hierarchical
  • Four DLLs (delay-locked loops) to ensure better clock control
  • QML certified
  • Also, it has a flexible architecture which balances density and speed
  • 16 interface standards of high performance
  • Ensured over the full range of temperature for military: -55 degrees centigrade to +125 degrees centigrade
  • In addition, there’s a FPGAs hardened through radiation for satellite and space applications
  • Multiplier support that is dedicated

XQVR600-1CB228V

Features of XQVR600-1CB228V

  • Direct connection to ZBTRAM devices
  • Fast, Field-programmable high-density Gate Arrays
  • 4 primary global low-skew nets for clock distribution, in addition to 24 global secondary nets
  • Memory system that is hierarchical
  • Ensured over the full range of temperature for military: -55 degrees centigrade to +125 degrees centigrade
  • 5-layer 0.22 µm epitaxial process
  • In addition, there are LUTs that are configurable as 16-bit Shift Register, dual-ported 16-bit RAM, 32-bit RAM, and 16-bit RAM
  • 3-state internal bussing
  • Four DLLs (delay-locked loops) to ensure better clock control
  • In-built circuitry for clock management
  • Carry logic that is dedicated to ensuringhigh-speed arithmetic

XQVR600-2CB228I

Features of XQVR600-2CB228I

  • 16 interface standards of high performance
  • Hot-swappable, which works for PCI that is compact
  • Dual-ported configurable synchronous 4k-bit RAMs
  • Also present is a 5-layer 0.22 µm epitaxial process
  • Ensured over the full range of temperature for military: -55 degrees centigrade to +125 degrees centigrade
  • SelectIO interfaces (multi-standard)
  • Densities that range from system gates of 100k – 1M
  • In addition, it is certified by QML
  • Latch-up immune
  • Ensured ionizing doze that can reach 100K Rad(si)
  • In-built circuitry for clock management
  • Furthermore, there are 4 primary global low-skew nets for clock distribution, in addition to 24 global secondary nets
  • FPGAs hardened through radiation for satellite and space applications

XQVR600-1CB228M

Features of the XQVR600-1CB228M

  • Certified by QML
  • Also present are LUTs that are configurable as 16-bit Shift Register, dual-ported 16-bit RAM, 32-bit RAM, and 16-bit RAM
  • Internal bussing and Latch-up immune
  • Dual-ported configurable synchronous 4k-bit RAMs
  • SEU immunity, which is achievable using redundancy implementation
  • Densities that range from system gates of 100k – 1M
  • In addition, there are 16 interface standards of high performance
  • Hot-swappable, which works for PCI that is compact
  • SelectIO interfaces and 5-layer 0.22 µm epitaxial process
  • System performance that can reach 200 MHZ
  • Ensured over the full range of temperature for military: -55 degrees centigrade to +125 degrees centigrade
  • 4 primary global low-skew nets for clock distribution, in addition to 24 global secondary nets
  • Four DLLs (delay-locked loops) to ensure better clock control

XQVR300-4CB228V

Features of the XQVR300-4CB228V

  • 22 µm epitaxial process (5-layer)
  • Also, it is certified by QML
  • FPGAs hardened through radiation for satellite and space applications
  • Total ionizing dose sure to reach 100K Rad(si)
  • Achievable SEU immunity with redundancy implementation
  • Ensured over the full range of temperature for military: -55 degrees centigrade to +125 degrees centigrade
  • Fast, Field-Programmable high-density Gate Arrays
  • System performance (max 200 MHz)
  • Architecture is flexible, and can balance density and speed
  • Furthermore, it has a multiplier support that is dedicated
  • Sensing device for die temperature
  • Reprogrammability is unlimited
  • Also, there is SRAM-system configuration
  • Vast selection of workstation and PC platforms
  • FPGA Foundation support as well as systems for Alliance development
  • Total support for Design Manager, Relationally Placed Macros, and Unified Libraries
  • Cascade chain that offers wide-input functions
  • Abundant latches/registers with clock, as well as asynchronous/synchronous reset and set

XQVR600-1CB228I

Features of XQVR600-1CB228I

  • 16 interface standards of high performance
  • Direct connection to ZBTRAM devices
  • Densities that range from system gates of 100k – 1M
  • 4 primary global low-skew nets for clock distribution, in addition to 24 global secondary nets
  • Ensured over the full range of temperature for military: -55 degrees centigrade to +125 degrees centigrade
  • Also, it is QML certified
  • 22 µm epitaxial process (5-layer)
  • Built-in circuitry for clock management
  • Four DLLs (delay-locked loops) to ensure better clock control
  • Total ionizing dose sure to reach 100K Rad(si)
  • Furthermore, it is hot-swappable, which works for PCI that is compact
  • FPGAs hardened through radiation for satellite and space applications

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Applications of the Xilinx QPro Virtex 2.5V Radiation-Hardened FPGAs

Cloud computing

The Xilinx QPro Virtex 2.5V Radiation-Hardened FPGAs is widely used in cloud computing. Also, the functions of cloud computing involves granting permission to client devices to gain access to any cloud application. Furthermore, the application has a huge dependence on all automation technologies as well as virtualization. Therefore, all these tell us the roles that Xilinx QPro Virtex 2.5V Radiation-Hardened FPGAs play in it.

Artificial Intelligence (AI)

Artificial intelligence utilizes DSP as well as AI/ML. However, with new models and neural techniques, Artificial intelligence is evolving very quickly. Furthermore, the Xilinx QPro Virtex 2.5V Radiation-Hardened FPGAs play a very significant role in AI. This AI features a combination of datasets as well as computer science to aid in problem solving. This is why the Xilinx QPro Virtex 2.5V Radiation-Hardened FPGAs include features which help the efficiency of artificial intelligence.

Medical Equipment

High-performance medical equipment feature the Xilinx QPro Virtex 2.5V Radiation-Hardened FPGAs. With these devices, it becomes possible to design more secure and safer medical equipment. Also, the Xilinx QPro Virtex 2.5V Radiation-Hardened FPGAs combines high-performance software programmability with other features. Also, this aids in managing complex functions in medical devices.

Wireless Technology

Wireless technology is known to also rely on the Xilinx QPro Virtex 2.5V Radiation-Hardened FPGAs technology. Xilinx QPro has important features, which ensures communication between entities over distances. Importantly, it provides full solutions to anything wireless networking. Furthermore, with wireless technology, there’s no use for any cable or wire. Therefore, the Xilinx QPro Virtex 2.5V Radiation-Hardened FPGAs provide a perfect solution.

Internet of Things (IoT)

The Xilinx QPro Virtex 2.5V Radiation-Hardened FPGAs are important for developing the internet of things. This is because a whole lot of physical devices are connected to the internet. In addition, the devices function in collecting as well as transmitting data. Moreover, you can achieve this via Xilinx devices development. Therefore, the connection of different objects and the addition of sensors become possible and easy.

Consumer Electronics

Some consumer electronics function using the Xilinx QPro Virtex 2.5V Radiation-Hardened FPGAs. You can find their application in mobile phones, as well as computer systems.

Industrial Control

This is a programmable logic controller. Also, other industrial control systems feature the Xilinx QPro Virtex 2.5V Radiation-Hardened FPGAs. Furthermore, this Xilinx QPro is available in Control Loop, Intelligent Electronic Device, and more. In addition, when we say industrial control, it includes systems, controls, and networks that aid the operation of industrial processes.

Aerospace and Defense

You can also find the application of the Xilinx QPro Virtex 2.5V Radiation-Hardened FPGAs in aerospace and defense. Also, this FPGA offers great features that support some defense and aerospace based systems. The Xilinx QPro Virtex 2.5V Radiation-Hardened FPGAs offer solutions to any critical problems present in these industries.

5G Technology

The 5G technology also relies on the Xilinx QPro Virtex 2.5V Radiation-H ardened FPGAs. Also, this technology is a great achievement present in mobile broadband. With these technologies, you get better performance in the Internet of Things. Furthermore, Xilinx QPro Virtex 2.5V Radiation-Hardened FPGAs provide features which help in meeting the rising demands of applications that are data-intensive.

Architecture of the Xilinx QPro Virtex 2.5V Radiation-Hardened FPGAs

Xilinx QPro Virtex 2.5V Radiation-Hardened FPGAs are gate arrays that are user-programmable having different configurable elements. Also, the optimization of its architecture is for high-performance and high-density logic designs. These programmable devices are made up of IOBs (input/output blocks) as well as internal CLBs (logic blocks that are configurable).

Furthermore, the programmable Input/Output blocks offer the interface seen between the internal logic (configurable) and the package pins. In addition, majority of the leading edge and popular Input/Output standards are backed by these IOBs that are programmable.

Also, this configurable logic (internal) has to do with three main elements with its arrangement in a unique and regular array.

3 Main Elements

  • CLBs (Configurable Logic Blocks), which offer elements that are functional for synchronous and combinatorial logic. This includes major storage elements. 3-state buffers, also known as BUFTs. These are linked with all the drives of the CLB element segmentable horizontal dedicated routing resources.
  • Multiplier blocks that are dedicated multipliers of 18-bit x 18-bit.
  • Digital Clock Manager (DCM) blocks that offer self-calibrating. Also, they offer a complete digital solution for the delay composition of clock distribution, clock division and multiplication, clock phase shifting (fine and coarse-grained).

The connection of all these elements, there are programmable resources for routing, which are referred to as Active Interconnect Technology. Furthermore, GRM (general routing matrix) is known as an assemblage of routing switches. In addition, all the programmable elements are tied to a something called switch matrix. With this, it becomes possible to have the general hold multiple connections. Furthermore, the total programmable interconnection can be said to be hierarchical. Also, its design is mainly to offer support to designs using high-speed digital signals.

The stationary memory cells’ values control all the elements that are programmable. This includes the routing resources. Also, during configuration, the loading of these values into the memory cells occurs. These can also be reloaded in order to alter the programmable elements’ functions.

Conclusion

We hope we have been able to discuss the Xilinx QPro Virtex 2.5V Radiation-Hardened FPGAs in detail. The Xilinx QPro Virtex 2.5V Radiation-Hardened FPGAs offer high-capacity, high-performance logic solutions that are programmable. Also, if you have any more questions feel free to contact us.

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