Panel and Jumper Definition

J16 /J17/J18: CNR (Primary or Secondary) Select [Optional] (CNR￿ Communication and Networking Riser)

1

J16

1 J17

1

J18

 

J16

J17

J18

Onboard AC97

1-2

1-2

1-2

CNR (Primary)

2-3

3-4

3-4

Onboard AC97 CNR

1-2

1-2

1-2

(Secondary)

 

3-4

 

[Optional]

 

 

 

JP3: Clear CMOS Function (Optional)

 

 

 

 

1

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

Pin No.

 

 

 

 

Definition

1-2 close

Normal (Default)

2-3 close

Clear CMOS

JP4: USB Device Wake up Selection

1

Pin No.

Definition

1-2 close

Normal (Default)

2-3 close

USB Device Wake up

(If you want to use “USB Dev Wakeup from S3~S5” function, you have to set the BIOS setting “USB Dev Wakeup from S3~S5” enabled, and the jumper “JP4” enabled)

*(Power on the computer and as soon as memory counting starts, press <Del>. You will enter BIOS Setup. Select the item “POWER MANAGEMENT SETUP”, then select “USB Dev Wakeup from S3~S5”. Remember to save the setting by pressing "ESC" and choose the “SAVE & EXIT SETUP” option.)

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AMD 7ZMMC user manual JP3 Clear Cmos Function Optional, JP4 USB Device Wake up Selection

7ZMMC specifications

The AMD 7ZMMC, or the AMD 7-Zen Mobile Microcontroller, represents a significant technological advancement in the domain of mobile computing and embedded systems. Designed for high-performance tasks, the 7ZMMC integrates a multitude of features that make it a formidable option for diverse applications ranging from consumer electronics to industrial solutions.

One of the standout features of the AMD 7ZMMC is its advanced processing architecture built on the renowned Zen microarchitecture. This architecture ensures efficient power consumption while delivering robust performance. The 7ZMMC utilizes a multi-core design, enabling it to handle parallel processing tasks seamlessly. This aspect is particularly beneficial in scenarios requiring multitasking capabilities or running complex algorithms in real-time.

Another distinctive characteristic of the 7ZMMC is its support for heterogeneous computing. This allows the microcontroller to leverage both CPU and GPU resources efficiently, thereby optimizing workloads and improving computational throughput. This capability is particularly essential for tasks such as graphics rendering, artificial intelligence, and machine learning applications.

The AMD 7ZMMC also incorporates advanced security features, including hardware-level protection mechanisms to safeguard sensitive data and protect against potential vulnerabilities. This is increasingly important in an era where data breaches and cyber threats are prevalent. With built-in security protocols, the 7ZMMC ensures a secure operating environment for both software applications and user data.

In terms of connectivity, the 7ZMMC excels with integrated support for various communication standards including Wi-Fi, Bluetooth, and advanced sensor interfaces. This makes it highly suitable for IoT applications, providing seamless integration with smart devices and networks.

The power efficiency of the AMD 7ZMMC is further enhanced by its ability to dynamically adjust performance based on workload demands. This not only extends battery life in portable devices but also reduces heat generation, promoting longevity and reliability in various operational environments.

Additionally, the microcontroller supports a wide array of development tools and software ecosystems, allowing developers to create robust applications efficiently and effectively. With comprehensive support for popular programming languages and development frameworks, the 7ZMMC provides a versatile platform for innovation.

In summary, the AMD 7ZMMC is a powerful, efficient, and secure microcontroller that sets a new standard for mobile and embedded computing. With its advanced features and capabilities, it is poised to play a vital role in shaping the future of technology across various sectors.