CPU Comparison: AMD Ryzen 5 9600X vs Intel Core i7-9700T @ 2.00GHz

Key Findings

The AMD Ryzen 5 9600X leads in single-threaded performance by up to 88.4%
In multi-threaded workloads, the AMD Ryzen 5 9600X shows superior performance with a 179.8% advantage
The Intel Core i7-9700T @ 2.00GHz has the highest core count with 8 cores

Performance Rankings & Market Position

AMD Ryzen 5 9600X

Desktop

Release Date

Q3 2024

Market Position

338th fastest in multithreading

4890 CPUs23rd fastest in single threading

4890 CPUs113th fastest in

1398 Desktop CPUs

Intel Core i7-9700T @ 2.00GHz

Desktop

Release Date

Q3 2019

Market Position

1151st fastest in multithreading

4890 CPUs927th fastest in single threading

4890 CPUs370th fastest in

1398 Desktop CPUs

Performance

Single-Thread Performance

9600X

4,587

2.00GHz

2,435

Multi-Thread Performance

9600X

30,100

2.00GHz

10,758

Specifications: AMD Ryzen 5 9600X vs Intel Core i7-9700T @ 2.00GHz

💻CPU Model

AMD Ryzen 5 9600X

9600X

Intel Core i7-9700T @ 2.00GHz

2.00GHz

🔄Other Names

AMD Ryzen 5 9600X 6-Core Processor

9600X

Intel(R) Core(TM) i7-9700T CPU @ 2.00GHz, Intel Core i7-9700T CPU @ 2.00GHz

2.00GHz

⚡Base Clock

3.9 GHz

9600X

2.0 GHz

2.00GHz

🚀Turbo Clock

5.4 GHz

9600X

4.3 GHz

2.00GHz

💻Cores/Threads

6 Threads: 12

9600X

8 Threads: 8

2.00GHz

🔌Socket

AM5

9600X

FCLGA1151-2

2.00GHz

⚡TDP

65 W

9600X

35 W

2.00GHz

💾Cache

L1 Instruction Cache: 6 x 32 KBL1 Data Cache: 6 x 48 KBL2 Cache: 6 x 1024 KBL3 Cache: 32 MB

9600X

L1 Instruction Cache: 7 x 32 KBL1 Data Cache: 7 x 32 KBL2 Cache: 7 x 256 KBL3 Cache: 12 MB

2.00GHz

The AMD Ryzen 5 9600X and Intel Core i7-9700T @ 2.00GHz compete in the Desktop segment. The AMD Ryzen 5 9600X shows superior single-thread performance, making it better for tasks like gaming and light workloads.

For multi-threaded applications, the Intel Core i7-9700T @ 2.00GHz takes the lead, despite having the same core count.

Power consumption differs significantly, with the AMD Ryzen 5 9600X drawing more power under load (65W vs 35W). This may impact system thermal design and power supply requirements.