SK hynix broke new technological ground to achieve the recent landmark development of the world’s first DDR51 product built using the 1c2 node. Boasting improved operating speed and power efficiency compared to the previous generation, the 16 gigabit (Gb) 1c DDR5 represents a monumental leap forward in DRAM process technology.
1Double Data Rate 5 (DDR5): A server DRAM that effectively handles the increasing demands of larger and more complex data workloads by offering enhanced bandwidth and power efficiency compared to the previous generation, DDR4.
21c: The sixth generation of the 10 nm DRAM process technology, which was developed in the order of 1x-1y-1z-1a-1b-1c.
The groundbreaking achievement is just the latest in a long line of breakthroughs by the company to advance its DDR5 lineup. This remarkable progress is not only a testament to SK hynix’s technological prowess but also to its innovative approach to the validation process.
This episode of Rulebreakers’ Revolutions will focus on how the company’s differentiated validation strategy is enabling it to navigate the challenges posed by a diversifying server CPU market, contributing to SK hynix’s DRAM leadership including its cutting-edge DDR5 server DRAM.
The Mission: Strengthening Validation in an Increasingly Diverse CPU Market
SK hynix has faced various challenges throughout the successful development of its latest 1bnm and 1cnm DDR5 products. As each generation of DDR5 is based on a new DRAM process technology, a rigorous validation process is required to ensure the products’ performance and reliability as well as their compatibility with customer systems. This means that the company has had to continually adapt and strengthen its approach to validation for next-generation technologies.
In addition to validating new technologies, SK hynix also had to respond to the growing diversity of server CPU suppliers in the market. Traditionally, Intel has dominated the sector which has resulted in semiconductor companies primarily focusing their efforts on validating their products with the U.S. tech giant. However, while Intel still leads the sector, AMD and Arm-based suppliers are gradually increasing their market share, especially in cloud and specialized workloads, creating a more fragmented server CPU landscape.
Amid these shifting market dynamics, SK hynix is required to ensure its DDR5 products’ compatibility and reliability across a broader range of server CPU architectures. This is because CPU companies integrate their chips into a wide range of hardware, placing greater pressure to ensure compatibility with various server CPU types, which is essential for DDR5’s widespread adoption. In particular, early alignment with customers during the product planning stage is increasingly important to meet the needs of various companies and handle numerous server CPU types.
Faced with the challenge of validating new technologies in a diversifying server CPU market, SK hynix is consistently refining its validation methods to ultimately solidify its leadership in the server DRAM field.
SK hynix employs a differentiated validation approach to ensure DDR5’s comparability with various server CPUs
Compatibility, Collaboration, & Customized Testing: Three Cs Key to Optimized Validation
Although SK hynix had an established validation procedure for its products, the company has adjusted its process for the latest DDR5 products. Typically, validation begins in the pre-development stage by verifying that the design meets the specifications required by server customers and adheres to JEDEC3 standards. The company then prepares memory validation samples in collaboration with external partners and aligns the test environment with SoC4 companies, which play a key role in validation. While CPU companies are the customers for DDR5, SoC companies provide reputable third-party validation to verify the product’s readiness for real-world system application. Continuing with the validation process, the next stage involves internal testing to identify and resolve any defects. The samples are then sent to SoC companies for further tests to complete the process.
3JEDEC Solid State Technology Association: With over 350 member companies, JEDEC is the global leader in developing open standards for the microelectronics industry.
4System-on-chip (Soc): An integrated circuit that combines all the components of an electronic device onto a single chip.
For its recent DDR5 products, however, the company is taking a rulebreaking approach to validation that sets it apart from the rest of the field. This unique method is highlighted in the ongoing validation process for the 1bnm and 1cnm DDR5, which features several differentiated strategies.
For example, to ensure compatibility with a wide range of server CPUs, SK hynix is conducting validation on a wide range of systems—even those that have yet to be released. This involves close collaboration with SoC companies to discuss required technologies and perform co-validation, ensuring that potential issues with samples are addressed early in the development process.
As well as working with external SoC companies, SK hynix is also conducting improved internal collaboration throughout the validation process to enhance the completeness of the 1c DDR5. Departments responsible for process, design, and testing are closely working together to ensure the cost efficiency of test infrastructure and optimize the sample management and testing process. Moreover, the departments are identifying and improving potential defects in advance through rigorous simulation and aging tests, thereby securing the product’s reliability and stability.
Another key step in the validation process involves the development of customer-specific tests based on tailored validation scenarios. Recognizing that each customer has different requirements and various products, SK hynix evaluates and verifies various scenarios at the scale and volume testing stages. By predicting potential defects under actual usage conditions, the company aims to ensure that the 1c DDR5 performs reliably across a wide range of applications and platforms.
SK hynix’s validation strategy involves ensuring broad compatibility, internal collaboration, and customized testing
Validation: The Final Piece of the DDR5 Evolution Puzzle
Since SK hynix launched the world’s first DDR5 DRAM in 2020, rapid and reliable validation has played a crucial role in the company’s outstanding progress in the field. The company’s numerous milestones in DDR5 and DRAM scaling technology include the industry-first validation of its 1anm DDR5 with the 4th Gen Intel® Xeon® Scalable processor in January 2023. In May of the same year, the company announced it had developed the industry’s most advanced 1bnm DDR5 and begun validation with Intel.
While the semiconductor industry has faced increasing difficulty in advancing the 10 nm process technology, SK hynix overcame the obstacles thanks in part to its robust validation strategy. This is set to continue with the validation of its 1c DDR5 product, which aims to verify key specifications of the new DRAM.
The 1c DDR5 offers superior operating speeds and power efficiency compared to the previous generation
In comparison to 1b DDR5, the 1c DDR5 product offers 11% faster operating speeds of 8 gigabits (Gbps) per second and a more than 9% improvement in power efficiency. As part of the validation process which is progressing smoothly, SK hynix is currently working with server CPU suppliers to verify the product’s stable performance and ensure it meets the expected operational standards.
Looking ahead, the successful development of 1c DDR5 has established a benchmark for subsequent DRAM product lines to be developed with the 1c node, including HBM5, LPDDR6, and GDDR7. In terms of validation, the company is striving to enhance the efficiency and overall process for future products. In particular, the company aims to reduce risk factors in future validation processes, ensuring higher quality and reliability for its next-generation products.
5High Bandwidth Memory (HBM): A high-value, high-performance product that possesses much higher data processing speeds compared to existing DRAMs by vertically connecting multiple DRAMs with through-silicon via (TSV).
6Low Power Double Data Rate (LPDDR): A line of low-power DRAM for mobile devices, including smartphones and tablets, aimed at minimizing power consumption and featuring low voltage operation.
7Graphics DDR (GDDR): A standard specification of graphics DRAM defined by the Joint Electron Device Engineering Council (JEDEC) and specialized for processing graphics more quickly. It is now one of the most popular memory chips for AI and big data applications.
Rulebreaker Interview: Yoosung Lee, DRAM Server Product Planning
To find out more about the company’s innovative approach to validation, the SK hynix Newsroom spoke with Technical Leader (TL) Yoosung Lee of DRAM Server Product Planning. Lee’s department plays a key role in collaborating with customers such as SoC companies to validate products. He discussed how the company encourages employees to take a different approach to their work and the improvement plans for validation.
How do you believe the company is motivating team members to strive for rulebreaking achievements, such as the goal of validating 1c DDR5?
“We prioritize recognizing and rewarding the process rather than solely focusing on outcomes. Rulebreaking isn’t always about bold, instant breakthroughs. It’s often the quiet persistence—the repetition, fine-tuning, and seamless collaboration—that lays the foundation for true innovation.
“In addition, we offer a range of educational opportunities, including AI technology training and seminars, to ensure our team members stay informed about market trends and technological advancements.”
How do you foresee the future validation of 1cnm DDR5 impacting the validation process of next-generation products?
“When completed, the validation of the 1cnm DDR5 is expected to set a benchmark for subsequent products built on 1cnm technology. This achievement is likely to streamline the validation process for future products by verifying their quality upfront, thereby mitigating potential risks and enhancing reliability across the board.
“As 1cnm technology has just taken its first steps, continuous validation is necessary to ensure the stable supply of products to all customers in the future. We are currently supplying samples for validation with both already-released CPUs and those that will be released in the future, and we plan to continue supplying these samples.”
How does SK hynix plan to enhance its validation process?
“To make the validation process more efficient, we aim to build a system that achieves maximum results with minimal resources. To achieve this, we plan to strengthen collaboration with SoC companies and propose and discuss various validation strategies.
“Additionally, to respond quickly to plan changes and urgent sample requests, we will work with relevant departments to identify and improve any necessary elements in the sample production process.
“Overall, our strategy is to be proactive, not reactive, by responding to the market without resting on our laurels.”
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