NAND Flash Controller - The iWave NAND Flash Controller IP Core enables efficient and secure access to SLC and MLC NAND memory with built-in ECC, bad block management, and wear-leveling. It is ideal for FPGA-based storage,… iWave is a global leader in high-performance FPGA System on Modules (SoMs), COTS modules such as 3U VPX and PCIe cards, and a growing portfolio of SmartNIC solutions. Our products are built around… Intel® Arria® 10 GX FPGA Intel® Arria® 10 SX SoC FPGA Intel® Stratix® 10 GX FPGA iWave’s NAND Flash Controller IP Core provides a highly reliable and efficient solution for interfacing with raw NAND Flash memory devices. Designed to support SLC and MLC NAND Flash, the controller delivers flexibility across various storage applications where direct control of NAND Flash is required. The IP core abstracts low-level complexities and provides robust command and error-handling mechanisms, making it ideal for high-reliability systems such as industrial storage, automotive data logging, and embedded bootloaders. This IP core supports a wide range of NAND Flash command sets and provides ECC (Error Correction Code) capabilities to ensure data integrity. The controller implements key features such as wear-leveling and bad block management and supports customizable timing parameters for compatibility with a wide range of NAND devices. With support for both AXI and Avalon interfaces, it integrates smoothly into Intel and other FPGA platforms. Flash Consumer Industrial NAND Flash Controller Key Features 8-bit Asynchronous Interface to NAND device Offering Brief No No No No Verilog VHDL Intel® Arria® 10 GX FPGA Intel® Arria® 10 SX SoC FPGA Intel® Stratix® 10 GX FPGA No Arria® 10 GX FPGA Development Kit No 17.0.0 Offering Brief Production a1JUi0000049UGRMA2 What's Included IP Core Ordering Information NAND Flash Controller a1JUi0000049UGRMA2 Production Intellectual Property (IP) Software / OS / RTOS a1MUi00000BO8sLMAT a1MUi00000BO8sLMAT Select 2025-10-22T22:51:48.000+0000 The iWave NAND Flash Controller IP Core enables efficient and secure access to SLC and MLC NAND memory with built-in ECC, bad block management, and wear-leveling. It is ideal for FPGA-based storage, boot, and logging applications requiring high data integrity and flexibility. Partner Solutions