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Intel Core Ultra 5 134U

Intel Core Ultra 5 134U

Intel Core Ultra 5 134U: A Comprehensive Review

The Intel Core Ultra 5 134U is an exciting addition to Intel's lineup of laptop processors, offering a mix of performance and efficiency that can cater to a variety of user needs. In this article, we will explore its architecture, performance in various scenarios, energy consumption, and much more. Whether you are a gamer, a professional, or a casual user, this processor has something to offer.

1. Architecture and Process Technology

Core Configuration

The Intel Core Ultra 5 134U features a hybrid architecture that consists of 12 cores divided into two types: 2 Performance cores (P-cores) and 10 Efficient cores (E-cores). This combination allows the CPU to handle demanding tasks while maintaining efficiency during lighter workloads.

- P-cores are designed for high-performance tasks, operating at a maximum turbo frequency of 4.4 GHz.

- E-cores are optimized for multitasking and lower power consumption, with a maximum turbo frequency of 3.6 GHz.

Threads

With 14 threads, the Core Ultra 5 134U supports simultaneous multithreading, enabling it to execute multiple tasks concurrently. This is particularly beneficial for users who engage in content creation, video editing, or multitasking environments.

Integrated Graphics

The processor comes with an integrated GPU, which is vital for users who do not require a dedicated graphics card. It allows for decent performance in multimedia tasks and light gaming, making it a versatile option for everyday use.

2. Power Consumption and Thermal Design Power (TDP)

The thermal design power (TDP) of the Intel Core Ultra 5 134U is rated at 15 watts, which is relatively low for a processor with such capabilities. This low TDP makes it suitable for thin and light laptops, contributing to their sleek designs without sacrificing performance.

Energy Efficiency

The combination of P-cores and E-cores enhances energy efficiency, allowing the processor to dynamically adjust power consumption based on workload demands. This means that during lighter tasks, it can operate using primarily E-cores, conserving battery life while still performing well.

3. Performance: Real-World Benchmarks

Office Work

In office productivity tasks, the Intel Core Ultra 5 134U excels. Applications like Microsoft Office, Google Workspace, and video conferencing tools run smoothly. Users report quick load times and seamless multitasking capabilities, enhancing overall productivity.

Multimedia

For multimedia tasks such as video playback, photo editing, and streaming, the processor performs admirably. The integrated graphics handle 1080p video playback without any noticeable lag, and rendering times in software like Adobe Photoshop are competitive for a processor of this class.

Gaming

While it is not a dedicated gaming CPU, the Intel Core Ultra 5 134U can handle casual gaming quite well. Titles like "Fortnite" or "League of Legends" can run at 60 FPS on medium settings, making it suitable for gamers who do not require ultra-high settings. However, for more demanding titles, users may notice limitations in performance.

Turbo Mode Behavior

The Turbo Boost technology allows the processor to temporarily increase its clock speed when needed. During intensive workloads, users can expect the CPU to reach its maximum turbo frequencies, ensuring that performance remains high under pressure.

4. Use Cases: Who Needs This Processor?

Gamers

Casual gamers looking for a laptop that offers decent performance without the need for a dedicated GPU will find the Intel Core Ultra 5 134U appealing. It allows for enjoyable gameplay in less demanding titles and can handle esports games quite well.

Professionals and Creatives

For professionals engaged in office work, light video editing, or graphic design, this processor offers a good balance between performance and energy efficiency. It’s particularly suitable for professionals on the go who need a reliable machine without the bulk of a gaming laptop.

Everyday Users

Casual users who utilize their laptops for browsing, streaming, and light productivity will benefit significantly from the Intel Core Ultra 5 134U. Its ability to handle multiple applications simultaneously makes it a great choice for everyday tasks.

5. Battery Life: Impact of Power Consumption

The energy-efficient design of the Intel Core Ultra 5 134U contributes to impressive battery life in laptops. With its low TDP, users can expect prolonged usage times, especially when performing lighter tasks.

Energy-Saving Technologies

Intel has integrated several energy-saving technologies, including:

- Dynamic Tuning: The CPU adjusts its performance based on current tasks, optimizing power usage.

- Intel Speed Shift: This technology allows the processor to respond quickly to changes in workload, further enhancing efficiency.

As a result, users can enjoy longer periods between charges, making it suitable for professionals and students who work on the go.

6. Comparison with Competitors

When comparing the Intel Core Ultra 5 134U to its competitors, several models come to mind:

AMD Ryzen 5 Series

AMD’s Ryzen 5 series, such as the Ryzen 5 5600U, offers similar performance levels but often excels in multi-threaded applications due to its higher core and thread counts. However, Intel's integrated graphics typically provide better performance for casual gaming.

Previous Generations

Compared to previous Intel Core i5 processors, the Ultra 5 134U shows significant improvements in both performance and power efficiency, thanks to its hybrid architecture.

Apple M1 and M2 Chips

Apple’s M1 and M2 processors dominate in terms of efficiency and performance for specific tasks, particularly in creative applications. However, they lack the same level of flexibility found in traditional Windows-based laptops.

7. Pros and Cons

Pros

- Hybrid Architecture: The combination of P-cores and E-cores provides flexibility and efficiency.

- Good Energy Efficiency: With a low TDP of 15 watts, it is suitable for ultraportables.

- Integrated Graphics: Allows for decent multimedia and light gaming capabilities without a dedicated GPU.

- Strong Performance in Everyday Tasks: Handles office work, web browsing, and streaming seamlessly.

Cons

- Limited Gaming Performance: Not suited for high-end gaming or demanding applications.

- Lower Thread Count Compared to Competitors: In multi-threaded tasks, it may lag behind AMD's offerings.

- Price Point: Depending on the laptop model, it can be pricier than similar AMD processors.

8. Recommendations for Laptop Selection

When choosing a laptop with the Intel Core Ultra 5 134U, consider the following:

Types of Devices

- Ultrabooks: Ideal for students and professionals who need portability and battery life.

- Gaming Laptops: Look for models with dedicated GPUs if gaming is a priority.

- Workstations: For heavy multitasking or creative work, consider devices with higher core counts.

Key Features to Look For

- RAM: Aim for at least 16GB to ensure smooth multitasking.

- Storage: An SSD will provide faster load times and overall system responsiveness.

- Display: A Full HD display is crucial for a good multimedia experience.

9. Conclusion: Who Should Choose the Intel Core Ultra 5 134U?

In summary, the Intel Core Ultra 5 134U is a versatile processor that caters to a wide range of users. It is particularly well-suited for casual gamers, professionals in creative fields, and everyday users who require a reliable laptop for both productivity and entertainment.

With its impressive blend of performance and energy efficiency, the Intel Core Ultra 5 134U stands out in its category, providing users with the performance they need without sacrificing battery life. If you're in the market for a new laptop, consider this processor as a solid choice for your next device.

Top Laptop/Mobile CPU: 156

基本

レーベル名
Intel
プラットホーム
Mobile
発売日
December 2023
モデル名
?
Intel プロセッサーの番号は、コンピューティングのニーズに適したプロセッサーを選択する際に、プロセッサーのブランド、システム構成、システムレベルのベンチマークとともに考慮すべきいくつかの要素の 1 つにすぎません。
134U
コード名
Meteor Lake

CPUの仕様

コア合計数
?
コアとは、単一のコンピューティング コンポーネント (ダイまたはチップ) 内の独立した中央処理装置の数を表すハードウェア用語です。
12
スレッド合計数
?
該当する場合、インテル® ハイパー・スレッディング・テクノロジーはパフォーマンス・コアでのみ利用可能です。
14
パフォーマンスコア
2
最大ターボ周波数
?
最大ターボ周波数は、インテル® ターボ・ブースト・テクノロジー、およびインテル® ターボ・ブースト・マックス・テクノロジー 3.0 (存在する場合) およびインテル® サーマル・ベロシティ・ブーストを使用してプロセッサーが動作できる最大シングルコア周波数です。 周波数は通常、ギガヘルツ (GHz)、つまり 1 秒あたり 10 億サイクルで測定されます。
4.4 GHz
ターボブースト周波数 (P)
?
インテル® ターボ・ブースト・テクノロジーから得られる最大 P コア・ターボ周波数。
4.4 GHz
効率的なコアの最大ターボ周波数
?
インテル® ターボ・ブースト・テクノロジーから得られる E コアの最大ターボ周波数。
3.6 GHz
プロセッサーの基本電力
?
SKU セグメントおよび構成のデータシートに指定されているベース周波数およびジャンクション温度でインテル指定の高複雑性ワークロードを実行する際に、プロセッサーが製造時に超えないことが検証された時間平均消費電力。
9 W
最大ターボパワー
?
電流および/または温度制御によって制限される、プロセッサーの最大持続 (>1 秒) 消費電力。 瞬間的な電力は、短期間 (<=10ms) に最大ターボ電力を超える場合があります。 注: 最大ターボ電力はシステム ベンダーによって構成可能であり、システム固有にすることもできます。
30 W
最高動作温度
?
ジャンクション温度は、プロセッサ ダイで許容される最大温度です。
110°C

メモリ仕様

メモリタイプ
?
インテル® プロセッサーには、シングル チャネル、デュアル チャネル、トリプル チャネル、フレックス モードの 4 つのタイプがあります。 複数のメモリ チャネルをサポートする製品でチャネルごとに複数の DIMM を装着すると、サポートされる最大メモリ速度が低下する可能性があります。
Up to LPDDR5/x 6400 MT/s
最大メモリサイズ
?
最大メモリ サイズとは、プロセッサがサポートする最大メモリ容量を指します。
64 GB
最大メモリチャネル数
?
メモリ チャネルの数は、実際のアプリケーションの帯域幅動作を指します。
2

GPUの仕様

グラフィック周波数
?
グラフィックスの最大ダイナミック周波数とは、ダイナミック周波数機能を備えたインテル® HD グラフィックスを使用してサポートできる最大日和見グラフィックス レンダリング クロック周波数 (MHz 単位) を指します。
1.75 GHz

Geekbench 6

シングルコア
2090
マルチコア
7787

パフォーマンス

277.3
MB/Sec
File Compression
871.3
10.8
Routes/Sec
Navigation
58.2
42.7
Pages/Sec
HTML5 Browser
214.5
46.8
MPixels/Sec
PDF Renderer
234
26.7
Images/Sec
Photo Library
138
10.7
KLines/Sec
Clang
44.5
176.2
Pages/Sec
Text Processing
218.5
70.4
MB/Sec
Asset Compression
364.9
63
Images/Sec
Object Detection
165.3
11
Images/Sec
Background Blur
31.6
68.2
MPixels/Sec
Horizon Detection
365.8
121
MPixels/Sec
Object Remover
398.3
63.3
MPixels/Sec
HDR
109.1
21.5
Images/Sec
Photo Filter
80.3
2060
KPixels/Sec
Ray Tracer
12300
74.3
KPixels/Sec
Structure from Motion
324.3
シングルコア
マルチコア

Passmark CPU

シングルコア
2824
マルチコア
11891

パフォーマンス

Integer Math
マルチコア
51.2 GOps/Sec
Floating Point Math
マルチコア
28.6 GOps/Sec
Find Prime Numbers
マルチコア
51 M Primes/Sec
Random String Sorting
マルチコア
12.6 M Strings/Sec
Data Encryption
マルチコア
7.9 GB/Sec
Data Compression
マルチコア
123.1 MB/Sec
Physics
マルチコア
853 Frames/Sec
Extended Instructions
マルチコア
6.4 B Matrices/Sec
Single Thread
マルチコア
2.8 GOps/Sec
もっと見せる

Geekbench 5

シングルコア
1491
マルチコア
6494

他のCPUとの比較

14%
33%
79%
これは過去 1 年間の CPU 使用率 14% より優れている
これは過去 3 年間の CPU 使用率 33% より優れている
これは CPU の 79% よりも優れています

SiliconCat ランキング

156
当サイトの Laptop/Mobile CPU の中で 156 位
568
当サイトの CPU ランキング 568 位
Geekbench 6 シングルコア
Core Ultra 7 165H
Intel, December 2023
2274
Core i7-1365UE
Intel, January 2023
2179
Core Ultra 5 134U
Intel, December 2023
2090
Core i7-1255UL
Intel, July 2022
1984
Core i7-1260U
Intel, February 2022
1872
Geekbench 6 マルチコア
Xeon W-2175
Intel, October 2017
8166
Core Ultra 5 134U
Intel, December 2023
7787
Xeon Silver 4214R
Intel, January 2020
7355
EPYC 7773X
AMD, March 2022
6918
Geekbench 5 シングルコア
Xeon E-2324G
Intel, September 2021
1591
Core i5-12600
Intel, January 2022
1532
Core Ultra 5 134U
Intel, December 2023
1491
Ryzen 9 6900HS
AMD, January 2022
1428
Core i9-10900E
Intel, April 2020
1361
Geekbench 5 マルチコア
Core i5-10600KF
Intel, April 2020
7291
Xeon E5-2670 v3
Intel, September 2014
6822
Core Ultra 5 134U
Intel, December 2023
6494
Ryzen 7 PRO 1700
AMD, June 2017
6214
Ryzen 7 5700U
AMD, January 2021
5902
Passmark CPU シングルコア
Ryzen 9 5900H
AMD, April 2021
2977
Xeon E-2288G
Intel, April 2019
2902
Core Ultra 5 134U
Intel, December 2023
2824
Xeon W-3275M
Intel, April 2019
2715
Passmark CPU マルチコア
Core i3-12300T
Intel, January 2022
13251
Xeon W-2133
Intel, August 2017
12673
Core Ultra 5 134U
Intel, December 2023
11891
Xeon E5-2643 v4
Intel, January 2016
11125
Core i5-9600K
Intel, October 2018
10683

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