Windows 95 Installation 2-15

Caution

Under most circumstances it will not be necessary to make modifications directly to the registry. Incorrect settings can result in undesirable changes to the configuration of Windows 95 or NT.

The registry parameters are as follows:

Keyword

Default

Valid Values

DEVICEVXDS

 

M16B.SYS

 

DEVLOADER

 

NDIS

 

DIRECTENABLE

 

0

0-1

DRIVERDESC

 

INTEL ETHEREXPRESS PRO/100

 

 

LAN+MODEM PC CARD (NETWORK)

EARLYTRANSMIT

 

1

0-1

ENUMPROPPAGES

 

NETDI.DLL,ENUMPROPPAGES

FULLDUPLEX

 

0

0-1

FUNCTIONENABLE

 

0

0-2

INFPATH

 

NETM16B.INF

 

INTERRUPTNUMBER

 

04 00 00 00

 

IOBASEADDRESS

 

02 00 00 00

 

LINESPEED

 

0

0-2

LINKINTEGRITY

 

1

0-1

MEMORYBASEADDRESS

01 00 00 00

 

MODE

 

0

0-1

NETWORKADDRESS

 

 

 

PLATFORMTYPE

 

1

1

TRANSMITBUFFERSIZE

11264

1024-29696

‘InterruptNumber’, ‘IoBaseAddress’, and ‘MemoryBaseAddress’ are NOT user-configurable and their values are assigned by the Windows 95 Configuration Manager.

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Intel PRO/100 appendix Registry parameters are as follows, Keyword Default Valid Values

PRO/100 specifications

The Intel PRO/100 network adapter series, introduced in the mid-1990s, revolutionized networking by providing robust performance and reliability for both desktop and server environments. These adapters were pivotal in enabling fast Ethernet connectivity, helping to establish standards that would be instrumental in the advancement of network technology.

One of the primary features of the Intel PRO/100 series is its support for 10/100 Mbps Ethernet speeds. This dual-speed capability allowed organizations to transition seamlessly from older 10 Mbps networks to faster 100 Mbps connections without the need for a complete hardware overhaul. This adaptability made the PRO/100 cards a flexible choice for various network architectures.

Another significant characteristic of the Intel PRO/100 is its use of advanced bus mastering technology. This feature enhances data throughput by allowing the network adapter to take control of the system's bus when transmitting data. By doing so, it minimizes CPU overhead, which results in better overall system performance and efficient network communication. This was particularly beneficial in environments where network traffic was heavy, allowing the processors to handle other tasks without being bogged down.

The Intel PRO/100 series was also incorporated with Intel’s Plug and Play technology. This innovation simplified the installation process, automatically detecting the hardware and configuring it to work with existing system resources. As a result, system administrators could save time and reduce errors during setup, making it an attractive option for businesses looking to streamline their IT operations.

In terms of compatibility, the PRO/100 adapters supported a variety of network operating systems, including Windows NT, Linux, and Novell NetWare, providing users with a versatile solution for integrating into existing infrastructures. Furthermore, the cards were designed with high-quality, durable components to ensure longevity and reliability even in demanding environments.

Intel also emphasized the importance of network security and management with these adapters. The PRO/100 series featured capabilities for diagnostics and performance monitoring, allowing administrators to quickly identify and resolve network issues. Advanced features like Wake-on-LAN (WoL) provided additional functionality, enabling remote management and maintenance.

In conclusion, the Intel PRO/100 network adapter series represented a significant leap in networking technology during its time. With features such as dual-speed functionality, bus mastering, Plug and Play installation, and extensive compatibility, it laid the foundation for future innovations in network communication, solidifying Intel's reputation as a leader in networking solutions. Whether for small businesses or large enterprises, the PRO/100 series offered the reliability and performance critical to maintaining efficient and effective network operations.