Comparison between Intel Core i9-9990XE and AMD A12-9800E
Intel Core i9-9990XE is manufactured by Intel, while AMD A12-9800E is manufactured by AMD.
Intel Core i9-9990XE has a higher base speed of 4.0 GHz compared to AMD A12-9800E's 3.1 GHz.
Intel Core i9-9990XE has a higher turbo speed of 5.0 GHz compared to AMD A12-9800E's 3.8 GHz.
Intel Core i9-9990XE has more cores (14) compared to AMD A12-9800E's 4 cores.
Intel Core i9-9990XE supports more threads (28) compared to AMD A12-9800E's threads.
Both CPUs belong to the same class: Desktop.
Intel Core i9-9990XE uses the LGA2066 socket, while AMD A12-9800E uses the AM4 socket.
Intel Core i9-9990XE was launched in Q3 2020, while AMD A12-9800E was launched in Q3 2017.
Intel Core i9-9990XE has a larger L3 cache of 19 MB compared to AMD A12-9800E's MB.
Specification Summary
The Intel Core i9-9990XE and AMD A12-9800E are two processors with distinct specifications. Below is a detailed comparison of their key features:
Manufacturer: Both processors are manufactured by Intel.
Speed: The Intel Core i9-9990XE has a base speed of 4.0 GHz, while the AMD A12-9800E runs at 3.1 GHz.
Turbo Boost: The Intel Core i9-9990XE supports a turbo speed of 5.0 GHz, compared to 3.8 GHz for the AMD A12-9800E.
Cores: The Intel Core i9-9990XE has 14 cores, while the AMD A12-9800E has 4 cores.
Threads: The Intel Core i9-9990XE supports 28 threads, compared to threads for the AMD A12-9800E.
Class: Both processors are designed for Desktop use.
Socket: The Intel Core i9-9990XE uses the LGA2066, while the AMD A12-9800E uses the AM4.
Launch Date: The Intel Core i9-9990XE was launched on Q3 2020, while the AMD A12-9800E was released on Q3 2017.
L3 Cache: The Intel Core i9-9990XE has 19 MB of L3 cache, compared to MB for the AMD A12-9800E.
Detailed Specifications:
Specs
Intel Core i9-9990XE
AMD A12-9800E
Manufacturer
Intel
AMD
Speed
4.0 GHz
3.1 GHz
Turbo
5.0 GHz
3.8 GHz
Cores
14
4
Threads
28
Class
Desktop
Desktop
Socket
LGA2066
AM4
Launched
Q3 2020
Q3 2017
L3 Cache
19 MB
MB
Review:
Single Core Performance:
CPU Performance in single-threaded applications
Intel Core i9-9990XE:
49%
AMD A12-9800E:
26%
* More is Better
Multi Core Performance:
CPU Performance in multi-threaded applications
Intel Core i9-9990XE
43%
AMD A12-9800E:
5%
* More is Better
Power Efficiency:
Power Consumption of CPU under full load
Intel Core i9-9990XE: 255 watts
63.75%
AMD A12-9800E: 35 watts
8.75%
* Lower is Better
Launched Date:
Time when the CPU was launched
Intel Core i9-9990XE : Q3 2020 ✅
AMD A12-9800E : Q3 2017 ✅
* Newer is Better
CPU Launch FINAL SCORE:
CPU Final Rating Ratings
Intel Core i9-9990XE
AMD A12-9800E
Pro's and Con's
Intel Core i9-9990XE – Pros and Cons
Pros:
Newer Release: The Intel Core i9-9990XE was launched more recently (Q3 2020) compared to the AMD A12-9800E (Q3 2017). This means it benefits from the latest advancements in technology, improved efficiency, and potentially better software optimization.
Higher Base Clock Speed: The Intel Core i9-9990XE has a higher base clock speed of 4.0 GHz compared to the AMD A12-9800E's 3.1 GHz. This results in better performance for single-threaded tasks and general responsiveness.
Higher Turbo Boost Speed: The Intel Core i9-9990XE supports a higher turbo boost speed of 5.0 GHz compared to the AMD A12-9800E's 3.8 GHz. This allows for better performance during peak workloads.
Faster Single-Core Performance: With a single-threaded performance score of 2970, the Intel Core i9-9990XE outperforms the AMD A12-9800E (score: 1617). This makes it better suited for tasks that rely on single-core performance, such as gaming or everyday productivity.
Larger L3 Cache: The Intel Core i9-9990XE features a larger L3 cache of 19MB compared to the AMD A12-9800E's MB. A larger cache improves performance in memory-intensive tasks, such as video editing or 3D rendering, by reducing latency and speeding up data access.
Higher CPU Mark Score: The Intel Core i9-9990XE has a higher CPU Mark score of 13.94 compared to the AMD A12-9800E's 5.18. This indicates better overall performance across a wide range of tasks.
Cons:
Higher Power Consumption: The Intel Core i9-9990XE has a higher TDP of 255W compared to the AMD A12-9800E's 35W. This means it may consume more power, leading to higher energy costs and potentially more heat generation, which could require better cooling solutions.
AMD A12-9800E – Pros and Cons
Pros:
Not available
Cons:
Fewer Cores: The AMD A12-9800E has 4 cores, which is fewer than the Intel Core i9-9990XE's 14 cores. This could impact performance in multi-threaded workloads, such as rendering, compiling code, or running virtual machines.
Fewer Threads: The AMD A12-9800E has threads, which is fewer than the Intel Core i9-9990XE's 28 threads. This may limit its ability to handle highly parallel workloads efficiently.
Lower Multi-Core Performance: In multi-threaded tasks, the AMD A12-9800E scores 3471, which is lower than the Intel Core i9-9990XE's score of 30162. This makes the Intel Core i9-9990XE a better choice for heavy multitasking or parallel processing.
Productivity
Intel Core i9-9990XE
This cpu Handles Mid Level level office applications, web browsing, and media playback with ease.
It can also be used for Mid Level level multitasking or CPU-intensive tasks like video editing or 3D rendering.
AMD A12-9800E
This cpu Handles Entry Level level office applications, web browsing, and media playback with ease.
It can also be used for Entry Level level multitasking or CPU-intensive tasks like video editing or 3D rendering.
Gaming
Intel Core i9-9990XE
Ideal for Mid Level level gaming (when paired with a dedicated GPU) and Mid Level level computing.
AMD A12-9800E
Ideal for Entry Level level gaming (when paired with a dedicated GPU) and Entry Level level computing.
Verdict
Intel Core i9-9990XE
The Intel Core i9-9990XE is a reliable and Mid Level processor for your PC builds. It delivers excellent value for users with Mid Level computing needs or those building a New PC.
AMD A12-9800E
The AMD A12-9800E is a reliable and Entry Level processor for your PC builds. It delivers excellent value for users with Entry Level computing needs or those building a New PC.
