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Aerospace & Defence

Advanced eFPGA Solutions by Menta

eFPGA technology is revolutionizing Aerospace and Defense applications with its unparalleled flexibility, adaptability, and performance. In this dynamic sector where rapid innovation and customization are paramount, eFPGAs offer a game-changing solution.

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Critical Applications in Aerospace & Defence

By integrating FPGA capabilities directly into silicon chips, eFPGAs empower aerospace and defense engineers to enhance functionality, optimize power consumption, and streamline system design. From implementing complex algorithms for signal processing to adapting to evolving communication protocols, eFPGAs excel in meeting mission-critical requirements. With their in-field reprogramming capability, eFPGAs ensure adaptability to changing mission objectives and emerging threats, providing unparalleled versatility and longevity to aerospace and defense systems. Embracing eFPGA technology sets the standard for innovation and resilience in the Aerospace and Defense industry.

Motor controls : Precision and Reliability

Motor controls ask for high-speed control loops that often require highly parallel and deterministic signal processing operations such as FFT. Menta eFPGA IPs and their DSPs avoid compromising between efficiency (ASIC implementation) and flexibility over lifetime (MCU implementation) by offering both.

Hidden Cryptography
for Enhanced Security

FPGA COTS components, commonly utilized as cryptography accelerators (e.g., AES, SHA), pose security risks due to potential communication hacking between the ASIC/SoC and the COTS component. Leveraging eFPGA IPs for running ciphering algorithms offers a solution. Menta eFPGA bitstream ensures easy security implementation to thwart hacking attempts Integration enables cryptography agility and autonomy for long-lasting security.

Protecting Against Trojans and Hacking

Malicious insertion threats involve the intentional introduction of defects or malicious functions into a photomask or into an individual IC. Using Menta eFPGA IPs to protect crown jewels ensures that no trojan/hacking will be inserted at mask level during the IC fabrication.

Satellite Payloads: Optimizing Space Technology

Satellite payloads require the lowest possible weight as each gram is introducing a large difference in cost. Menta eFPGA IPs allow you to get rid of small COTS FPGA extra components, their additional liabilities, and reduce the board size. Menta eFPGA can be radiation hardened by design.

Secured Wireless Communication in Defence

Update your radio for any operating field with Menta eFPGA IP. Our DSP offers, but is not limited to, high speed, low power reconfigurable FIR & IIR filters.

Replacing Obsolete eFPGAs : A Modern Solution

Avoid disturbing the entire supply chain by doing a pin-to-pin compatible replacement FPGA based on Menta eFPGA IP.

Motor controls : Precision and Reliability

Motor controls ask for high-speed control loops that often require highly parallel and deterministic signal processing operations such as FFT. Menta eFPGA IPs and their DSPs avoid compromising between efficiency (ASIC implementation) and flexibility over lifetime (MCU implementation) by offering both.

Hidden Cryptography
for Enhanced Security

FPGA COTS components, commonly utilized as cryptography accelerators (e.g., AES, SHA), pose security risks due to potential communication hacking between the ASIC/SoC and the COTS component. Leveraging eFPGA IPs for running ciphering algorithms offers a solution. Menta eFPGA bitstream ensures easy security implementation to thwart hacking attempts Integration enables cryptography agility and autonomy for long-lasting security.

Protecting Against Trojans and Hacking

Malicious insertion threats involve the intentional introduction of defects or malicious functions into a photomask or into an individual IC. Using Menta eFPGA IPs to protect crown jewels ensures that no trojan/hacking will be inserted at mask level during the IC fabrication.

Satellite Payloads: Optimizing Space Technology

Satellite payloads require the lowest possible weight as each gram is introducing a large difference in cost. Menta eFPGA IPs allow you to get rid of small COTS FPGA extra components, their additional liabilities, and reduce the board size. Menta eFPGA can be radiation hardened by design.

Secured Wireless Communication in Defence

Update your radio for any operating field with Menta eFPGA IP. Our DSP offers, but is not limited to, high speed, low power reconfigurable FIR & IIR filters.

Replacing Obsolete eFPGAs : A Modern Solution

Avoid disturbing the entire supply chain by doing a pin-to-pin compatible replacement FPGA based on Menta eFPGA IP.
Learn more about Applications
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Advantages of Menta’s eFPGA in Aerospace & Defence

100% third party standard cells: fully verifiable within your own flow. Trusted eFPGA IP.
Already provided in major Defence foundries in Europe and USA: Intel 16nm and 18A, GLOBALFOUNDRIES 22FDX and 12LP(+), ST MICROELECTRONICS 28FDSOI, XFAB 180nm
No SRAM bitcells. Can be made rad-hard-ready by design - like a radiation-hardened ASIC.
Secured bitstream module
Multiple space & defence tapeouts for customers and govt agencies
Menta’s R&D in France.
Free of ITAR and export control.
About menta

Expanding Applications of Menta's eFPGA Technology

Our commitment is simple: to offer companies the opportunity to integrate digital solutions – customizable electronic design components and tools tailored precisely to their specific needs.

Automotive/Mobility Innovations with Menta eFPGA

In the now fast-paced automotive and mobility sectors, eFPGAs offer a significant advantage. They allow manufacturers to customize and modify hardware after production, facilitating quick updates to comply with regulations, integrate new features, or adjust to evolving standards.
Learn more

IoT/IIoT Solutions Powered by Menta

eFPGA technology is at the cutting edge of innovation, ready to revolutionize the landscape of IoT and IIoT applications. Embedded within SoCs, eFPGAs offer unparalleled flexibility and adaptability, allowing for reconfiguration of hardware functionalities even after deployment. FPGA architectures offer deterministic, real-time processing capabilities, which are essential for industrial applications.
Learn more

Edge Servers and telecommunications Optimized by Menta eFPGA

Designed to offer unparalleled flexibility and processing performance, eFPGA enables edge devices to adapt and evolve according to application requirements. By integrating FPGA capabilities directly into silicon designs, eFPGA technology enables edge devices to swiftly execute complex algorithms, accelerate machine learning tasks, and efficiently process massive datasets with minimal latency.
Learn more
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Automotive/Mobility Innovations with Menta eFPGA

In the now fast-paced automotive and mobility sectors, eFPGAs offer a significant advantage. They allow manufacturers to customize and modify hardware after production, facilitating quick updates to comply with regulations, integrate new features, or adjust to evolving standards.
Learn more

IoT/IIoT Solutions Powered by Menta

eFPGA technology is at the cutting edge of innovation, ready to revolutionize the landscape of IoT and IIoT applications. Embedded within SoCs, eFPGAs offer unparalleled flexibility and adaptability, allowing for reconfiguration of hardware functionalities even after deployment. FPGA architectures offer deterministic, real-time processing capabilities, which are essential for industrial applications.
Learn more

Edge Servers and telecommunications Optimized by Menta eFPGA

Designed to offer unparalleled flexibility and processing performance, eFPGA enables edge devices to adapt and evolve according to application requirements. By integrating FPGA capabilities directly into silicon designs, eFPGA technology enables edge devices to swiftly execute complex algorithms, accelerate machine learning tasks, and efficiently process massive datasets with minimal latency.
Learn more
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