AWS c6id.24xlargevsAWS c6id.8xlarge

c6id.24xlarge pairs 96 vCPUs with 192GB of RAM at $4.8384/hr On-Demand (about $3484/mo at 24×7). c6id.8xlarge pairs 32 vCPUs with 64GB at $1.6128/hr (~$1161/mo). c6id.8xlarge is 67% cheaper per hour than c6id.24xlarge ($3.2256/hr gap).

Because both instances are in the **c6id family**, the only thing that changes between them is sizing — same silicon, same architecture (Intel Xeon (x86_64)), same burstable/sustained behavior. The choice is purely about how much capacity you actually need: c6id.24xlarge gives you 96 vCPUs and 192GB of RAM, c6id.8xlarge gives you 32 vCPUs and 64GB. AWS scales pricing close to linearly within a family, so picking the right size is mostly about right-sizing your workload, not getting a better deal per vCPU.

Benchmark data for at least one of these instances is still being collected, so a direct performance-per-dollar comparison isn't possible yet. Sysbench scores are pending for c6id.24xlarge and 2954/49572 for c6id.8xlarge. Check back as the benchmark queue completes — newer-generation instances typically score 10–30% higher on single-thread and 15–50% higher on multi-core vs the previous generation in the same series.

In practice, pick c6id.24xlarge when your workload is closer to compute-optimized (CPU-bound work — batch processing, web servers under sustained load, game servers). Pick c6id.8xlarge when it's closer to compute-optimized (CPU-bound work — batch processing, web servers under sustained load, game servers). When neither side is obviously right, the cheaper hourly rate usually wins for fault-tolerant batch workloads, while the higher single-core score usually wins for latency-sensitive web traffic. The regional pricing tables linked from each instance page below show where each is currently cheapest — sometimes a >20% regional gap flips the comparison entirely.