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Glossary

Algorithm code

Flash programming algorithm code. This code runs in the target system and it

 

must support used Flash type and phone hw. The prommer box can contain

 

several algorithm codes; each code supports one or more different Flash

 

devices. E.g. u_intel.fia supports a number of Intel flash chips.

Application code

Software which FPS-8 prommer box MCU runs.

Asic-Boot

See Bootstrap code

Bootstrap code

Code that resides in target hardware, usually in ASIC ROM or in MCU internal

 

ROM. Bootstrap code loads secondary bootstrap code into target RAM.

DCT3

Third generation Digital Core Technology.

DCT4

Fourth generation Digital Core Technology.

FLASH

Nonvolatile electronically erasable memory. Both phone and prommer hw

 

have Flash memory (See prommer main board).

FPS-8

The name of the FLASH prommer

IR

Infrared

TSS4

Test and Service Software 4th Generation

Secondary bootstrap

Second bootstrap code, loads algorithm code into target RAM. Executed in

 

target hardware. E.g. u_2nd.fia

SRAM

Random access memory, data is lost when power is lost. FPS-8

 

prommer box can have 64 MB of SRAM (See picture of FPS-8

 

main board).

WinTesla

Service Software for DCT-3 generation phones

Phoenix

Service Software for DCT-4 generation phones

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Nokia FPS-8 manual Glossary, See Bootstrap code

FPS-8 specifications

Nokia FPS-8 is a cutting-edge optical networking solution designed to enhance the efficiency and performance of modern data centers and telecommunications networks. As data traffic continues to surge due to increased internet usage, cloud computing, and video streaming, operators need robust systems that can manage this demand without compromising on speed or reliability. The FPS-8 stands out as a solution tailored to meet these evolving needs.

One of the main features of the Nokia FPS-8 is its advanced optical transport capabilities. It supports multiple wavelengths on a single fiber, allowing for efficient data transmission over long distances. This wavelength-division multiplexing (WDM) technology enables operators to maximize the utilization of existing fiber infrastructure, reducing the need for costly upgrades.

The FPS-8 is equipped with a high-capacity switching fabric, enabling it to handle large volumes of data traffic with ease. This feature is particularly crucial in environments where low latency and high throughput are essential for applications such as video conferencing, online gaming, and real-time data analytics. The system's architecture is designed to adapt dynamically to network conditions, ensuring optimal performance.

In addition to its capacity and efficiency, the Nokia FPS-8 incorporates advanced management and automation features. Its intelligent orchestration capabilities allow for real-time monitoring and management of network resources, which can significantly improve operational efficiency. This automation is essential for service providers looking to streamline their operations while minimizing downtime and maintenance costs.

Security is another critical aspect of the FPS-8. The system includes built-in encryption capabilities that protect data in transit, safeguarding it from potential threats and ensuring compliance with industry standards. This makes it an appealing choice for organizations handling sensitive information.

Moreover, the modular design of the FPS-8 offers flexibility for operators to scale their networks according to changing demands. This scalability ensures that organizations can respond quickly to shifting traffic patterns, allowing for better resource allocation.

In conclusion, the Nokia FPS-8 represents a state-of-the-art solution that combines high capacity, advanced technology, and robust management capabilities. With its focus on efficiency and security, it is an optimal choice for modern network operators looking to future-proof their infrastructure in an era characterized by rapid digital transformation.