Ethernet MAC 10G/25G Comcores Ethernet MAC 10G/25G provides a complete IEEE 802.3 Ethernet Layer 2 solution. The MAC IP core performs the Link function of the 10G/25G Ethernet Standard and is a low latency cut-through implementation reaching best in market results while still keeping size at a minimum. The core is fully configurable and is prepared for IEEE1588 integration and easy interfacing with Comcores 10G/25G PCS solution.
The Ethernet MAC Core, on the Client side, implements a 64-bit AXI-S interface for Express and Preemptable traffic respectively while having a standard XGMII interface on the PHY side. View see the entire
eFPGA IP cores for GF 22FDX The EFLX®4K Logic IP core is an embeddable FPGA IP core containing 2,520 Look-Up-Tables (LUTs: each is 6-input, or dual-5-input, with 2 independent outputs with 2 bypassable flip flops) in Reconfigurable Building Blocks (RBBs) and 21 Kbit RAM, an improved XFLX™ interconnect network, multiple clocks & scan: fully reconfigurable in-field at any time.
The EFLX 4K DSP core has 40 DSP MACs (22x22 multiplier with 48 bit accumulator). In the Gen2 architecture, MACs cascade up to 10 stages without using the interconnect network.
Each EFLX core is a standalone embedded FPGA. Cores can be arrayed up to at least 8x8 to create arrays >500K LUT4s. Logic and DSP cores can be mixed. And RAM can be integrated as well.
INSIDE Secure SM4 Engine The EIP-12 SM4 Engine implements the SM4 cipher block algorithm. The accelerator includes I/O registers, encryption and decryption cores. Designed for fast integration, low gate count, and maximum performance, the SM4 Engine provides a reliable and cost-effective SM4 IP solution that is easy to integrate into SoC designs. View see the entire get in contact with SM4 IP
Custom Regulated High Capacity Charge Pump The CC-301IP is a variable Frequency, Regulated High Capacity Charge Pump which can be utilized as a supply booster (single stage +5% to +20%) of a given Supply voltage for on-chip component (op amp, ADC, DAC, Comparator, etc) headroom extension, enhancing the rail to rail performance of on chip components. The CC-301IP Charge Pump range can be extended to create a +40V to +100V on chip generated High Voltage supply for MEMS or Haptic Circuits. The CC-301IP features an on-board VCO for Charge Pump output load adjustability and enhanced Boost Phase performance and contains an on-board regulator for Charge Pump Voltage output adjustment and regulation to +-1% of the set output voltage target.
CAN is a message-based protocol, designed specifically for automotive applications and as of now, for any avionics equipment in safety critical applications. .