Giga Computing Launches New Compute Dense GIGABYTE B-series Blade Servers, Incorporating Recycled Materials for Greater Sustainability

August 28, 2025 – Giga Computing, an industry leader in accelerated computing servers and advanced cooling technologies, today announced the launch of its first 3U 10-node blade servers: the GIGABYTE B343-C40, supporting AMD EPYC™ 4005 or Ryzen™ 9000 Series processors, and the GIGABYTE B343-X40, supporting Intel® Xeon® 6300-series processors.

This new GIGABYTE B-series marks Giga Computing’s entry into blade server solutions, optimized for enterprise, edge, and cloud workloads that demand scalable, power-efficient systems with centralized management.

The GIGABYTE B343 Series is also Giga Computing’s first product line to incorporate post-consumer recycled (PCR) low-carbon materials, supporting the rising global demand for sustainable computing. These servers are engineered for performance and environmental responsibility, aligning with evolving carbon regulations and enterprise ESG goals.

Extreme Density Meets Versatile Computing
Using a compact 3U chassis, the B343 Series integrates ten independent server nodes, each with its own compute, storage, and networking resources. This ultra-dense design enables organizations to maximize compute density, reduce data center footprint, and flexibly deploy across a range of workloads.

• B343-C40: Each node supports AMD EPYC™ 4005 & Ryzen™ 9000 Series processors, and has multiple PCIe Gen5 lanes for high-speed I/O and dual LAN ports for greater throughput and redundancy
  • B343-C40-AAJ1 (2×1GbE)
  • B343-C40-AAJ2 (2×10GbE)
  • B343-C40-AAJ3 (2×25GbE)
• B343-X40: Tailored for Intel^® Xeon^® 6300-series/E-2400 processors, featuring dual-channel DDR5 memory and high-speed connectivity
  • B343-X40-AAS1 (2×1GbE)

In addition to each node having dual LAN ports and a management port, there is also a FHHL PCIe 5.0 x16 port that can be used for high-speed networking cards or NVMe storage expansion.

Efficient Chassis Design for Modern Data Centers
The B343 chassis is engineered to optimize power, connectivity, and operational efficiency:

• Shared power supplies operate at their peak efficiency range for greater energy savings
• A Chassis Management Controller (CMC) simplifies deployment and reduces cabling requirements
• A high-speed backplane interconnect enables multi-host rear networking, reducing the number of NICs needed

Sustainability That Delivers Measurable Value
The B343 Series incorporates low-carbon recycled materials into key components, including air ducts, heatsinks, and chassis, sourced through Giga Computing’s verified green supply chain. These materials include both PCR and Pre-consumer recycled content, ensuring traceability and carbon footprint transparency. By using green sourcing practices for the aforementioned components, the carbon emissions associated with their production can be reduced by up to 95%. This design innovation brings tangible ESG value to customers through:

• Transparent production traceability and carbon disclosures
• Alignment with CBAM (Carbon Border Adjustment Mechanism) requirements in global markets
• Seamless integration into customer ESG reporting
• One of the key components alone is estimated to have a 30,000kg CO₂ reduction, which is equivalent to planting 3,000 trees

By adopting recycled materials, Giga Computing enables enterprises and cloud service providers to significantly reduce their carbon footprint without sacrificing performance, while also meeting the increasingly stringent sustainability standards of modern procurement and regulatory bodies.

Built for the Future – Today
The GIGABYTE B343 Series delivers a powerful combination of density, efficiency, and sustainability. These systems are ideally suited for:

• Edge and micro data centers
• Enterprise-scale virtualization and container workloads
• Government and sustainability-driven procurement initiatives

As the IT industry embraces a future of data-heavy and carbon-aware infrastructure, the B343 Series positions Giga Computing as a trusted partner in deploying next-generation green computing solutions.

Extreme climate events and tightening global environmental regulations are reshaping industrial responsibilities and creating new opportunities for a competitive advantage. As a core component of digital infrastructure, servers have been associated with significant energy demands and carbon emissions. In response to the global push toward reducing the carbon footprint and net zero goals, Giga Computing is taking a proactive approach to become one of the first server manufacturers to adopt a high proportion of recycled materials in the production and design of servers.

Recycled Materials Successfully Integrate into Key Structural Components
Giga Computing’s sustainable server design begins with three major structural components:

• Air ducts and drive trays: Made with up to 95% PCR PC or PC+ABS plastics, sourced from post-consumer items such as water bottles, wafer carriers, CDs, automotive headlamps, and other electronics
• Heatsinks: Made with 100% PCR aluminum, primarily sourced from recycled aluminum window frames, bicycle components, and decommissioned heatsinks
• Chassis components: Made with 20% pre-consumer recycled low-carbon metals

All recycled materials undergo comprehensive testing for industrial-grade durability, thermal conductivity, and reliability to ensure that mass-produced units meet Giga Computing’s quality and performance standards while advancing sustainability goals.

Driving Carbon Savings and Compliance Through Recycled Material Innovation
Working alongside PCR material suppliers, Giga Computing has built a rigorous material tracking and traceability framework that brings measurable and reportable value to customers:

• Quantifiable Carbon Reduction: Based on 2024 procurement numbers, switching to heatsinks that incorporate recycled materials could reduce more than 160 metric tons of CO₂e annually. When applied across all structural components in manufactured servers, the total carbon reduction could exceed 275.75 metric tons of CO₂e annually, which is equivalent to the offset if you planted and grew 2,758 tree seedings for 10 years.
• Third-Party Material Certification: The recycled materials used in sustainable servers are certified by credible third-party organizations, enabling customers to cite the data directly in ESG reports and sustainability performance disclosures, enhancing corporate credibility and the brand’s green image.
• Compliance and Bidding Advantage: As environmental regulations and carbon emission standards have tightened in the United States, Europe, and Japan, the carbon footprint of products and the percentage of recycled materials used have become key thresholds for exports and procurement. Giga Computing’s recycled material innovation supports customers in complying with emerging environmental regulations and EU Carbon Border Adjustment Mechanism (CBAM)

Redefining Server Value: Performance × Sustainability × Compliance
Giga Computing, known for its high-density, high-performance, and modular server designs, is evolving its product philosophy to embrace a trinity of performance, sustainability, and compliance. This initiative marks not just a specification upgrade but a pivotal turning point in the industry's shift toward net-zero goals.

“This is more than a hardware innovation, it’s a declaration of where the server industry is headed,” said Alan Chen, AVP at Giga Computing. “We are transitioning from a traditional hardware supplier to a sustainable strategic partner that enables customers to realize their ESG and carbon neutrality goals.”

Looking ahead, Giga Computing will continue leveraging innovative design thinking and green material integration to deliver next-generation server solutions. The company is committed to working with customers to realize a truly net-zero future and fulfilling its responsibility to both the planet and the industry.