Cpu Gb2 | Ultimate

False. A CPU with a high GB2 score (like an old Core i7-990X) will be absolutely destroyed by a modern Intel N100 in real-world tasks like 4K video playback or NVMe SSD handling, even if the i7 has a higher GB2 number. GB2 does not test modern vectors like AES-NI encryption or neural processing.

When you see a "CPU GB2" score, it is the aggregate result of 11 distinct test suites, divided into two categories: cpu gb2

The final score is normalized against a baseline machine (a 2.4 GHz Intel Core 2 Duo, which scored approximately 2,500 points). If a CPU has a GB2 score of 5,000, it is theoretically twice as fast as that baseline. Floating Point Performance (Mathematical Heavy Lifting):

To fully grasp "CPU GB2", you must understand what changed. If you compare a GB2 score to a GB6 score, you will make a critical error. The final score is normalized against a baseline

| Feature | Geekbench 2 | Geekbench 5/6 | | :--- | :--- | :--- | | Workload Size | Small (fit in early L1/L2 caches) | Large (tests memory & cache hierarchy) | | Multi-core Scaling | Simple thread dispatch | Complex, realistic concurrency models | | Instruction Sets | Up to SSE3, ARMv6/7 | AVX-512, ARMv8.3, SVE | | Score Inflation | 2,000 was high-end | 2,000 is low-end (modern CPUs score 15,000+) | | Use Case | Single-core dominance era | Heterogeneous computing (big.LITTLE) |

Because GB2’s workloads were smaller, it often favored CPUs with fast single-core speed but weak memory controllers (like the NetBurst architecture of Pentium 4s). Modern benchmarks penalize those CPUs for cache misses.