Default VME Settings

MOTLoad Firmware

 

 

Outbound Image 2 Translation Offset Upper Register = 00000000

Outbound Image 2 Translation Offset Lower Register = 40000000

Outbound Image 2 2eSST Broadcast Select Register = 00000000

MVME7100>

Outbound window 2 (OTAT2) is enabled, 2eSST timing at SST320, transfer mode of SCT, A24/D32 Supervisory access. The window accepts transfers on the PCI-X Local Bus from 0xB0000000-0xB0FF0000 and translates them onto the VMEbus using an offset of 0x40000000, thus an access to 0xB0000000 on the PCI-X Local Bus becomes an access to 0xF0000000 on the VMEbus.

zMVME7100> vmeCfg –s –o3

Displaying the

selected Default VME Setting

 

 

- interpreted as

follows:

 

 

Outbound Image

3

Attribute Register = 80001061

=

00000000

Outbound Image

3

Starting Address Upper Register

Outbound Image

3

Starting Address Lower Register

=

B3FF0000

Outbound Image

3

Ending Address Upper Register =

00000000

Outbound Image

3

Ending Address Lower Register =

B3FF0000

Outbound Image

3

Translation Offset Upper Register

= 00000000

Outbound Image

3

Translation Offset Lower Register

= 4C000000

Outbound Image

3

2eSST Broadcast Select Register

=

00000000

MVME7100>

 

 

 

 

Outbound window 3 (OTAT3) is enabled, 2eSST timing at SST320, transfer mode of SCT, A16/D32 Supervisory access. The window accepts transfers on the PCI-X Local Bus from 0xB3FF0000-0xB3FF0000 and translates them onto the VMEbus using an offset of 0x4C000000, thus an access to 0xB3FF0000 on the PCI-X Local Bus becomes an access to 0xFFFF0000 on the VMEbus.

zMVME7100> vmeCfg –s –o7

Displaying the

selected Default VME Setting

 

 

- interpreted as

follows:

 

 

Outbound Image

7

Attribute Register = 80001065

=

00000000

Outbound Image

7

Starting Address Upper Register

Outbound Image

7

Starting Address Lower Register

=

B1000000

Outbound Image

7

Ending Address Upper Register =

00000000

Outbound Image

7

Ending Address Lower Register =

B1FF0000

Outbound Image

7

Translation Offset Upper Register

= 00000000

Outbound Image

7

Translation Offset Lower Register

= 4F000000

Outbound Image

7

2eSST Broadcast Select Register

=

00000000

MVME7100>

 

 

 

 

Outbound window 7 (OTAT7) is enabled, 2eSST timing at SST320, transfer mode of SCT, CR/CSR Supervisory access. The window accepts transfers on the PCI-X Local Bus from 0xB1000000-0xB1FF0000 and translates them onto the VMEbus using an offset of 0x4F000000, thus an access to 0xB1000000 on the PCI-X Local Bus becomes an access to 0x00000000 on the VMEbus.

MVME7100 Single Board Computer Installation and Use (6806800E08A)

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Emerson manual MVME7100 vmeCfg -s -o3, Default VME Settings MOTLoad Firmware

MVME7100 specifications

The Emerson MVME7100 is a powerful and versatile embedded computing platform designed for demanding applications in various fields, including telecommunications, aerospace, and defense. It offers enhanced performance, a wide range of connectivity options, and robust security features, making it suitable for mission-critical operations.

One of the key features of the MVME7100 is its high-performance processing capabilities. The system is powered by a dual-core PowerPC processor that delivers exceptional computational power while maintaining energy efficiency. This makes the MVME7100 ideal for applications requiring intensive data processing and real-time analytics, allowing users to run complex algorithms and manage large datasets effectively.

The MVME7100 supports an extensive array of I/O options, which ensures compatibility with multiple peripheral devices and communication protocols. Users can take advantage of multiple serial ports, Ethernet interfaces, and USB connections. Additionally, the platform supports various fieldbus protocols, enabling seamless integration with existing systems and equipment.

In terms of ruggedness, the MVME7100 is designed to operate in challenging environments. It features a robust enclosure that can withstand extreme temperatures, shocks, and vibrations. This provides the reliability required for industrial applications, making it suitable for deployment in harsh conditions, such as manufacturing floors or remote locations.

Security is another critical aspect of the MVME7100. It incorporates advanced security measures, including secure boot and encryption capabilities, to protect sensitive data and ensure system integrity. These features are essential for applications in sectors like defense and aerospace, where cybersecurity is a top priority.

Moreover, the MVME7100 supports various operating systems, including VxWorks and Linux, providing flexibility for developers and engineers. This enables the use of popular software development tools and frameworks, facilitating faster application development and deployment.

In summary, the Emerson MVME7100 is a robust embedded computing solution that combines high performance, extensive connectivity, and exceptional reliability. Its versatile features make it suitable for a wide range of applications, ensuring that it meets the needs of industries where performance and security are paramount. Whether deployed in telecommunications, defense, or industrial automation, the MVME7100 stands out as a reliable choice for embedded computing challenges.