Inline Memory Encryption IP

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Silicon IP (13)

Compare 13 Inline Memory Encryption IP from 4 vendors (1 - 10)

DDR Encrypter
- Protect the external memory
- On-the-fly encryption
- Optional authentication
Memory & Bus Protection IP Core
- The Memory & Bus Protection IP Core module enables on-the-fly encryption/decryption and authentication to the external memory.
- It supports AHB/AXI slave/master interfaces, APB port for configuration purpose, and contains a cache. It is typically placed between the processor(s) and an external memory controller (DDRx).
Inline Decrypter IP Core
- XIP (eXecution In Place) of encrypted code directly from Flash. (Optional xSPI controller)
- Decryption based on AES fully compliant with NIST FIPS 197
- AMBA Master/Slave interfaces
Fast Inline Cipher Engine, AES-XTS/GCM, SM4-XTS/GCM, DPA
- One input word per clock without any backpressure
- Design can switch stream, algorithm, mode, key and/or direction every clock cycle
- GCM: throughput is solely determined by the data width, data alignment and clock frequency
- XTS: block processing rate may be limited by the number of configured tweak encryption & CTS cores; a configuration allowing 1 block/clock is available
High-speed Inline Cipher Engine
- The ICE-IP-338 data path can be scaled to widths that are multiples of 128 bit to allow a tradeoff between area and performance that best fits the target application.
- Configuration options include or exclude support for CipherText Stealing (CTS), the GCM mode, and the SM4 algorithm and/or Datapath Integrity logic.
- The cryptographic AES and SM4 primitives can be provided with or without side channel attack DPA countermeasures.
Inline memory encryption engine for ASIC SoCs
- 128/512-bit (16-byte) encryption and decryption per clock cycle throughput
- Bidirectional design including separate crypto channels for read and write requests, ensuring non-blocking Read
- Read-modify-write supporting narrow burst access.
- Zeroization and support for memory initialization
- Latency: <28 clock cycles for unloaded READ
Inline memory encryption engine, for FPGA
- Performs encryption, decryption and/or authentication using AES Counter Mode (CTR) or Galois Counter Mode (GCM)
- Supports AES key sizes 128 or 256
- Internal key management with NIST-compliant key generation
- Encrypt memory space into user-defined vaults, each with a unique key
- Compatible with AMBA AXI4 interface
- Supports hard or soft memory controllers in Xilinx FPGA and SoC devices
- Supports multiprocessor systems
Inline cipher engine with AXI, for memory encryption
- Throughput: 128 bit (16 Byte) wide encryption/decryption per cycle
- Throughput: 1 tweak computation per 4 clock cycles
- Bidirectional design including arbitration between read and write requests
- Zero clock overhead for switching between encryption (write) and decryption (read)
- 30-40 cycle data channel latency
Inline cipher engine for PCIe, CXL, NVMe, 5G FlexE link integrity and data encryption (IDE) using AES GCM mode
- The ICE-IP-63 (EIP-63) is a scalable high-performance, multi-channel cryptographic engine that offers AES-GCM operations as well as AES-CTR and GMAC on bulk data.
- Its flexible data path is suitable to scale from 100 Gbps to 2.4 Tbps to provide a tailored engine with minimal area for your application.
- The FIFO-like data interface makes it possible to perform frame processing for many different protocols, including MACsec, IPsec, and OTN security.
Embedded Flash Protection with Hardware Root of Trust and Lite Crypto Engine
- PUFef is designed to protect embedded Flash with a Hardware Root of Trust and a lite crypto engine of RC6.
- The RC6 provides a comprehensive level of security while also minimizing overall size.
- Before attempting to hack the crypto engine, attackers would first have to destroy the embedded Flash.