c9gd.metal-48xl is a Compute optimized [AWS Graviton processors] [Instance store volumes] Gen9 metal-48xl server offered by Amazon Web Services with 192 vCPUs, 384 GiB of memory and 11.4 TB of storage. The pricing starts at 2.7042 USD per hour.
Compute optimized [AWS Graviton processors] [Instance store volumes] Gen9 metal-48xl
Family
c9gd
Hw Virt
-
Status
active
Observed At
2026-07-02T05:12:41.091365
Availability
REGION / ID
SPOT
ONDEMAND
Ohio (US) / us-east-2
2.726733 USD/h
10.2528 USD/h
Northern Virgina (US) / us-east-1
3.337567 USD/h
10.2528 USD/h
Oregon (US) / us-west-2
3.8095 USD/h
10.2528 USD/h
Frankfurt (DE) / eu-central-1
4.658433 USD/h
11.856 USD/h
Processor
vCPUs
192
CPU Allocation
Dedicated
CPU Cores
192
CPU Speed
2.8 GHz
CPU Architecture
arm64
CPU Manufacturer
AWS
System Resources and Accelerators
MEMORY
Memory Amount
384 GiB
GPU
GPU Count
0
GPU Memory Min
0 MiB
GPU Memory Total
0 MiB
GPUs
STORAGE
Storage Size
11400 GB
Storage Type
nvme ssd
Storages
3800 GB nvme ssd
3800 GB nvme ssd
3800 GB nvme ssd
NETWORK
Network Speed Baseline
100 Gbps
Network Speed Max
100 Gbps
Network Storage Speed Baseline
72 Gbps
Network Storage Speed Max
72 Gbps
Inbound Traffic
0 GB/month
Outbound Traffic
0 GB/month
IPv4
0
Server Description
A bare-metal ARM64 server featuring one hundred ninety-two dedicated cores, massive local NVMe storage, and high-speed networking for compute-heavy workloads.
Compute OptimizedStorage & Database
Amazon Web Services c9gd.metal-48xl is a bare-metal, compute-optimized server utilizing the ARM64 architecture. Powered by AWS Graviton processors, it delivers 192 dedicated physical cores and 192 vCPUs operating at 2.8 GHz with a single thread per core. The hardware configuration includes 384.0 GB of system memory, yielding 2.0 GB of RAM per core, alongside 11,400 GB of local NVMe SSD instance storage. Network performance is supported by a baseline bandwidth of 100 Gbps. Lacking integrated GPUs, this server is designed for high-performance compute workloads requiring significant local storage capacity. The resource profile is optimized for distributed databases, data analytics, and high-performance computing tasks that benefit from dedicated physical cores and high-speed local storage.
Economics
Average Price per Region
Prices per Zone
Lowest Prices
Workload Profiles
Precomputed compound score for Cache Intensive workloads. A weighted average (geometric mean) of benchmark scores compared to their medians: score = ∏ (x_i / m_i)^(w_i / Σw). The score of 1.0 represents a synthetic baseline server with the median performance of each component benchmark; 0.5 means roughly half the performance; and 2.0 means twice the performance of that reference profile. Component weights: 50% Redis RPS (pipeline=1, SET), 20% Redis RPS (pipeline=16, SET), 10% PassMark Memory Mark (composite), 10% Memory bandwidth (read, 16 MB ~ L3), 10% PassMark single-thread CPU. Rationale for component selection: In-memory key-value store workload, mixing direct Redis performance metrics with memory speed and latency benchmarks, and single-core CPU performance profiles.
Precomputed compound score for CI/CD Build workloads. A weighted average (geometric mean) of benchmark scores compared to their medians: score = ∏ (x_i / m_i)^(w_i / Σw). The score of 1.0 represents a synthetic baseline server with the median performance of each component benchmark; 0.5 means roughly half the performance; and 2.0 means twice the performance of that reference profile. Component weights: 50% Geekbench Clang compilation (multi-core), 10% Geekbench Clang compilation (single-core), 20% stress-ng div16 best-N cores, 5% PassMark integer math, 5% PassMark compression, 5% Brotli compression (multi-core, level 0), 5% PassMark string sorting. Rationale for component selection: Build performance is mainly driven by multi-core compilation throughput, but also bundles single-core compilation speed and general CPU performance, multi-core compression and text/scripting processing.
Precomputed compound score for Compute Heavy Applications workloads. A weighted average (geometric mean) of benchmark scores compared to their medians: score = ∏ (x_i / m_i)^(w_i / Σw). The score of 1.0 represents a synthetic baseline server with the median performance of each component benchmark; 0.5 means roughly half the performance; and 2.0 means twice the performance of that reference profile. Component weights: 15% stress-ng div16 best-N cores, 10% stress-ng div16 single core, 20% PassMark CPU Mark (composite), 10% Memory bandwidth (read, 64 MB), 15% PassMark floating point, 15% PassMark AVX/SSE/FMA (SIMD), 10% PassMark integer math, 5% PassMark physics simulation. Rationale for component selection: Number-crunching workload augmenting raw CPU performance stressing, general CPU performance benchmarks, memory bandwidth, and pure math computation speed like floating point, integer, SIMD (AVX/SSE/FMA) operations.
Precomputed compound score for Data Analysis workloads. A weighted average (geometric mean) of benchmark scores compared to their medians: score = ∏ (x_i / m_i)^(w_i / Σw). The score of 1.0 represents a synthetic baseline server with the median performance of each component benchmark; 0.5 means roughly half the performance; and 2.0 means twice the performance of that reference profile. Component weights: 70% PassMark CPU Mark (composite), 10% Gzip compression (single-core, level 5), 10% Memory bandwidth (read, 64 MB), 10% PassMark Memory Mark (composite). Rationale for component selection: Data analysis and ETL workloads are memory-bandwidth-bound and CPU-throughput-driven. The profile combines general CPU performance and memory bandwidth/latency as the primary drivers, supplemented by single-core compression speed as a proxy for serialisation-heavy ETL tasks.
Precomputed compound score for LLM Inference workloads. A weighted average (geometric mean) of benchmark scores compared to their medians: score = ∏ (x_i / m_i)^(w_i / Σw). The score of 1.0 represents a synthetic baseline server with the median performance of each component benchmark; 0.5 means roughly half the performance; and 2.0 means twice the performance of that reference profile. Component weights: 15% LLM text generation (SmolLM-135M, 128 tok), 15% LLM prompt processing (SmolLM-135M, 512 tok), 15% LLM text generation (Llama 7B, 128 tok), 15% LLM prompt processing (Llama 7B, 512 tok), 15% LLM text generation (Llama-3.3 70B, 128 tok), 15% LLM prompt processing (Llama-3.3 70B, 512 tok), 5% Memory bandwidth (read, 256 MB), 2% PassMark AVX/SSE/FMA (SIMD), 2% PassMark floating point. Rationale for component selection: VRAM and memory-bandwidth-bound LLM inference workload, using direct LLM speed benchmarks at three model sizes, and supplementing with raw memory bandwidth and SIMD performance benchmarks.
Precomputed compound score for Web Server workloads. A weighted average (geometric mean) of benchmark scores compared to their medians: score = ∏ (x_i / m_i)^(w_i / Σw). The score of 1.0 represents a synthetic baseline server with the median performance of each component benchmark; 0.5 means roughly half the performance; and 2.0 means twice the performance of that reference profile. Component weights: 30% Static web RPS (1 kB, 8 conn/vCPU), 20% Static web RPS (64 kB, 8 conn/vCPU), 20% Static web throughput (256 kB, 8 conn/vCPU), 20% OpenSSL AES-256-CBC (16 kB blocks), 5% Gzip compression (multi-core, level 5), 5% PassMark string sorting. Rationale for component selection: Primary workloads drivers are single-process static HTTP serving speed and throughput, text processing, TLS termination, and asset compression.
c9gd.metal-48xl is a Compute optimized [AWS Graviton processors] [Instance store volumes] Gen9 metal-48xl server offered by Amazon Web Services with 192 vCPUs, 384 GiB of memory and 11.4 TB of storage. The pricing starts at 2.7042 USD per hour.
The c9gd.metal-48xl server is equipped with 192 logical CPU cores on 192 AWS physical CPU cores running at max. 2.8 Ghz, 384 GiB of memory, 11.4 TB of nvme ssd storage, and no GPU. Additional block storage can be attached as needed.
The pricing for c9gd.metal-48xl servers starts at 2.7042 USD per hour, but the actual price depends on the selected region, zone and server allocation method (e.g. on-demand versus spot pricing options): currently, we track the prices in 26 regions and zones every 5 minutes, and the maximum price stands at 11.856 USD.
The c9gd.metal-48xl server is offered by Amazon Web Services, founded in 2002, headquartered in Washington, United States. For more information, visit the Amazon Web Services homepage.
The c9gd.metal-48xl server is available in 26 availability zones of the following 4 regions: Ohio (US), Northern Virgina (US), Oregon (US), Frankfurt (DE).
A bare-metal ARM64 server featuring one hundred ninety-two dedicated cores, massive local NVMe storage, and high-speed networking for compute-heavy workloads.