High-Performance

computing Solutions

Accelerate Discovery with

Next-Gen Compute Power

Atipa Technologies delivers cutting-edge supercomputing solutions engineered for the most demanding workloads in science, research, and enterprise. Powered by the latest AMD EPYC™ 9005 and Intel® Xeon® 6 processors, our systems offer unmatched performance, scalability, and energy efficiency.

Atipa systems are architected to support advanced interconnects such as PCIe Gen5 and DDR5 memory, enabling ultra-low latency and high-bandwidth communication across nodes. Whether you're deploying tightly coupled MPI workloads or large-scale data analytics pipelines, our platforms deliver the throughput and responsiveness required for modern scientific and enterprise computing. With support for accelerators including NVIDIA H200 and B200 GPUs, and AMD Instinct MI300 series GPUs, Atipa solutions are ready for AI training, simulation, and visualization at scale.

Our modular server designs allow for flexible configurations tailored to specific workload profiles—from dense compute nodes for CFD and genomics to GPU-rich systems for deep learning and digital twins. Integrated with advanced cooling options, including direct-to-chip liquid cooling, our systems maintain optimal thermal performance even under sustained high loads. Combined with Atipa’s expertise in cluster integration, software stack tuning, and workload benchmarking, we ensure your infrastructure is not only powerful but also efficient and future-proof.

Whether you're building a new HPC cluster or upgrading an existing infrastructure, Atipa's solutions are designed to meet your needs with precision and flexibility.

Key Features of Atipa Supercomputing Solutions

Procyon Platform with AMD Epyc™ 9005

 Unmatched Core Density and Scalability

• Up to 192 cores and 384 threads per socket.
• Massive parallelism for compute-intensive workloads like molecular dynamics and computational fluid dynamics.

High Memory Bandwidth and Capacity

• Supports 12 DDR5 channels per socket with up to 6TB of memory.
• Ideal for large-scale simulations and data analytics.

Advanced Instruction Set and IPC Gains

• Features AVX-512 and a 37% IPC uplift over previous generations.
• Accelerates floating-point and vector operations critical in HPC and AI.

PCIe Gen5 and CXL 2.0 Support

• Up to 160 PCIe Gen5 lanes and Compute Express Link (CXL) 2.0.
• Enables high-speed interconnects for GPUs, accelerators, and memory expansion.

Energy Efficiency and Sustainability

• Optimized for up to 500W TDP with Zen 5/Zen 5c architecture.
• Delivers high performance per watt and reducing operational costs in dense HPC deployments.
  

Altezza Platform with Intel® Xeon® 6 P-Cores

High Core Count with Enhanced Single-Thread Performance

• Up to 128 P-cores per socket.
• Strong per-core performance ideal for HPC workloads like finite element analysis and computational fluid dynamics.

Advanced Memory Bandwidth with MRDIMM Support

• Supports Multiplexed Rank DIMMs (MRDIMMs) across up to 12 memory channels
• Enables up to 2.3× higher bandwidth for memory-bound simulations.

Integrated AI and HPC Acceleration

• Features Intel AVX-512 and Advanced Matrix Extensions (AMX) for accelerating FP16, BF16, and INT8 operations.
• Boost performance in AI inference, scientific modeling, and analytics.

High-Speed I/O and Interconnects

• Offers up to 192 PCIe Gen5 lanes and 64 lanes of CXL 2.0.
• Supports high-throughput connectivity for GPUs, accelerators, and memory expansion in multi-node HPC clusters.

Energy Efficiency and Server Consolidation

• Delivers up to 2× performance per watt over previous generations.
• Enables 5:1 to 10:1 server consolidation, reducing power consumption and total cost of ownership in dense compute environments.

Cluster Management Network

• Streamlined node provisioning for rapid deployment and scaling.
• Real-time health monitoring of compute, storage, and GPU resources.
• Centralized resource management for efficient utilization of CPU, memory, and I/O.
• Intelligent job allocation and scheduling to maximize throughput and minimize idle time. 
  

Out-of-Band IPMI Network

• Dedicated IPMI networking for remote monitoring and control.
• Secure out-of-band access for remote diagnostics and firmware updates.
• Remote power cycling, KVM over IP, and BIOS-level access for full system management without OS dependency.

High-Speed Communication Network

• Ultra-low latency and high throughput ConnectX-7 or ConnectX-8 InfiniBand fabrics for HPC and AI workloads.
• Support for +400Gb/s interconnect speeds.
• Sub-microsecond latency for MPI workloads
• Ideal for large-scale simulations, deep learning, and real-time data processing.
  

USE CASES

Scientific Research & Simulation

• Atipa systems empower researchers to tackle complex simulations in fields like climate science, astrophysics, and molecular dynamics.
• With high core counts and memory bandwidth, scientists can run multi-scale models, perform parameter sweeps, and analyze massive datasets with speed and precision. 

Artificial Intelligence & Machine Learning

• AI workloads demand compute density, fast interconnects, and efficient resource scheduling.
• Atipa’s platforms support large-scale training of deep neural networks, reinforcement learning, and generative models.
• ConnectX-7 and ConnectX-8 InfiniBand networking ensures low-latency communication across GPU and CPU nodes, while job allocation tools optimize throughput for multi-user environments.
  

Financial Modeling & Risk Analysis

• Financial institutions rely on high-performance computing for real-time risk assessment, portfolio optimization, and fraud detection.
• Atipa’s systems deliver the compute power needed for Monte Carlo simulations, high-frequency trading models, and predictive analytics. 
  

University HPC Centers

• Academic institutions benefit from scalable, multi-user clusters that support diverse research disciplines—from bioinformatics to computational chemistry.
• Bare metal or turnkey deployments allow Universities to choose between full control or rapid deployment.

Energy & Engineering

• From oil and gas exploration to automotive design, engineering firms use HPC to simulate physical systems, optimize designs, and analyze sensor data.
• Atipa’s platforms handle computational fluid dynamics (CFD), finite element analysis (FEA), and seismic imaging with ease. 
  

Media & Entertainment

• Studios and content creators rely on HPC for rendering, transcoding, and visual effects (VFX) workflows.
• Atipa’s high-performance clusters accelerate frame rendering, animation pipelines, and real-time editing of 4K/8K content.
• With fast interconnects and scalable compute, post-production teams can meet tight deadlines without compromising quality.
  

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