White Papers

Comprehensive overview of DDR5 new features including improved performance, RAS (Reliability, Availability, Serviceability) and ease of implementation compared to prior SDRAM generations. Covers on-die ECC, decision feedback equalization, and power management improvements.

Source: Micron Technology Official Website

Follow-up to Micron's DDR5 SDRAM paper, highlighting key DDR5 DIMM module features and advantages over DDR4. Covers integrated PMIC, on-module voltage regulation, SPD Hub, and improved signal integrity for server and client applications.

Source: Micron Technology Official Website

Explores how continued LPDDR scaling is critical for supporting larger context windows and batch sizes in future LLM deployments. Analyzes memory bandwidth requirements for transformer-based AI models and the role of LPDDR5X in edge inference.

Source: Micron Technology Official Website

Examines how mobile LPDRAM underpins the performance of edge AI workloads, analyzing the inference pipeline from model loading to token generation. Covers memory capacity and bandwidth requirements for on-device AI applications.

Source: Micron Technology Official Website

Technical brief on Micron's 1γ (1-gamma) process node using EUV lithography with 13.5nm wavelengths for advanced DDR5 manufacturing. Details the density, performance, and power efficiency improvements achieved with this cutting-edge process technology.

Source: Micron Technology Official Website

Analyzes how AI acceleration is driving system architectures to focus on memory solutions. Covers the evolution from traditional computing to AI-centric architectures, the memory wall challenge, and the role of HBM, DDR5, and CXL in meeting AI workload demands.

Source: Micron Technology Official Website

Co-published with Intel. Performance verification white paper demonstrating that SK hynix DDR5 server DRAM boosts bandwidth by 70% while lowering power consumption by 14.4% compared to DDR4 when applied to 4th Gen Intel Xeon Scalable processors.

Source: SK hynix Newsroom

Technical brief covering pertinent reliability factors necessary for accurate NAND flash memory device lifetime reliability analysis. Discusses data retention mechanisms, charge loss, read disturb, and the impact of P/E cycles on long-term data integrity.

Source: Kioxia Americas Official Website

Part 3 of the Managed Flash Device Lifetime Reliability series. Explains how to perform lifetime analysis on NAND flash memory within managed flash devices to ensure reliable and robust storage design for industrial and enterprise applications.

Source: Kioxia Americas Official Website

Official Samsung technical guide for proper handling of DRAM modules (DDR4 and DDR5). Covers module crack patterns based on experiments, ESD protection procedures, storage requirements, installation best practices, and quality assurance guidelines for server and client memory.

Source: Samsung Semiconductor Official Website