Tri-M Systems MOPS/586 technical manual Get Manufacturing Date

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MOPS/586

 

Hardware Description

 

 

 

 

 

 

 

 

 

Get Manufacturing Date

Int 15h

 

 

 

 

Input:

AX

= EA02h

DX = 4648h

 

 

CL

= Board number

 

 

 

Output:

CL=0: Board present

DX=6B6Fh: Function successful

 

 

CL0: Board not present

DX6B6Fh: Fn.not implemented

 

 

BX = Manufacturing date

 

 

 

Description

If CL=0 and DX=6B6Fh, then BX=Manufacturing date. Date format is the

 

 

same as used for DOS files:

 

 

 

 

Bit0..4:

Day

 

 

 

 

Bit5..8:

Month

 

 

 

 

Bit9..15:

Years since 1980

 

 

 

 

 

 

 

 

 

Get Serial Number

Int 15h

 

 

 

 

Input:

AX

= EA03h

DX = 4648h

 

 

CL

= Board number

 

 

 

 

ES:BX

= Pointer to destination data area

 

Output:

CL=0: Board present

DX=6B6Fh: Function successful

 

 

CL0: Board not present

DX6B6Fh: Fn.not implemented

 

Description:

If CL=0 and DX=6B6Fh, then 10 Byte serial number were copied to area

 

 

pointed to by ES:BX

 

 

 

 

The result is different for each single P488.

 

 

Note: There is no ending zero byte.

 

 

 

 

 

 

 

 

 

Get Hardware Revision

Int 15h

 

 

 

 

Input:

AX

= EA04h

DX = 4648h

 

 

CL

= Board number

 

 

 

Output:

CL=0: Board present

DX=6B6Fh: Function successful

 

 

CL0: Board not present

DX6B6Fh: Fn.not implemented

 

 

BH=Major revision number

 

 

 

 

BL=Minor revision number

 

 

 

 

 

 

 

 

 

Get Firmware Revision

Int 15h

 

 

 

 

Input:

AX

= EA05h

DX = 4648h

 

 

CL

= Board number

 

 

 

Output:

CL=0: Board present

DX=6B6Fh: Function successful

 

 

CL0: Board not present

DX6B6Fh: Fn.not implemented

 

 

BH=Major revision number

 

 

 

 

BL=Minor revision number

 

 

 

 

 

 

 

 

 

Get Last Repair Date

Int 15h

 

 

 

 

Input:

AX

= EA06h

DX = 4648h

 

 

CL

= Board number

 

 

 

Output:

CL=0: Board present

DX=6B6Fh: Function successful

 

 

CL0: Board not present

DX6B6Fh: Fn.not implemented

 

 

BX = Last repair date.

 

 

 

Description:

If CL=0 and DX=6B6Fh, then BX=Last repair date. For date format see

 

 

function ”Get Manufacturing Date”.

 

 

 

 

If board was never repaired, result will be equal to manufacturing date.

Tri-M Systems Inc., 6-1301 Ketch Court, Coquitlam, B.C., V3K 6X7, Canada Phone: (604) 527-1100, (800) 665-5600 Fax: (604) 527-1110

Email: info@Tri-M.com Web: www.Tri-M.com

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Contents MOPS/586 Table of Contents LITERATURE, STANDARDS, Links MOPS/586 User Information User InformationTrademarks GeneralIntroduction WarrantyFeatures MOPS/586 Map MapStandard Memory Map Memory Map for BIOS, SSD and JRC SupportMOPS/586 Memory Map for BIOS, SSD and JRC Support MOPS/586 Onboard SSD DOS-compatible Onboard SSD DOS-compatibleExpanded Memory Map MOPS/586 Block Diagram Block DiagramMOPS/586 Connector Arrangement Connector ArrangementMain Menu BIOS-DescriptionRTC-CMOS setup menu Standard Cmos SetupHard Disk Drive Types Boot Sector Virus ProtectionAdvanced Cmos Setup Internal Cache MOPS/586 BIOS-Description Wait For F1 if ErrorWatchdog Mode Hit ‚Del‘Message DisplayPower Management Setup Peripheral Setup Auto Configuration with Fail Safe Settings Change User PasswordChange Supervisor Password Auto Configuration with Optimal SettingsMOPS/586BIOS-Description Amibios Configuration ScreenMOPS/586 Hardware Description ALI-Chipset FeaturesMemory configuration Hardware DescriptionMOPS/586Hardware Description InterruptsDescription Jida StandardInput OutputGet Manufacturing Date Eeprom Detailed description of the watchdog function Watchdog ExtensionMOPS/586 Network Operation Network OperationOverview Environmental Specifications SpecificationsMechanical Specifications Electrical SpecificationsPeripheral Interface Keyboard, Reset, Battery, SpeakerSerial Port COM 1, 2 RS232C MOPS/586Peripheral Interface Floppy ConnectorParallel Port LPT Feature Connector IDE Connector for 2,5 Hard DiskEthernet Connector Keypin Power ConnectorPower Pins Specification AT Bus X2, C0 C19 PC/104-ConnectorSpecification XT Bus MOPS/586 Literature, Standards, Links Literature, Standards, LinksMOPS/586Document Revision History Document Revision History

MOPS/586 specifications

Tri-M Systems MOPS/586 is an advanced multi-application operating system specifically designed to meet the demands of modern computing environments. This system offers a range of unique features, technologies, and characteristics that position it as a leader in its class, particularly for embedded and real-time applications.

One of the standout features of the MOPS/586 is its modular architecture. This design allows for easy integration of various components, enabling users to tailor the operating system to fit their specific needs. Developers can add or remove modules seamlessly, ensuring that the system remains lightweight and efficient while retaining the necessary functionalities.

MOPS/586 utilizes a microkernel design, which enhances system stability and performance. By focusing on minimalism, the microkernel handles only the most essential services, such as communication and process management, while additional services can run in user space. This separation reduces the risk of system crashes and allows for easier maintenance and upgrades.

Another key characteristic of MOPS/586 is its real-time capabilities. The operating system supports deterministic processing, ensuring that critical tasks are executed within strict time constraints. This feature is particularly beneficial for industries such as automotive, aerospace, and telecommunications, where timing and reliability are crucial.

In terms of hardware compatibility, the MOPS/586 is designed to work seamlessly with a wide array of devices and platforms. Its support for x86 architecture, along with various peripheral interfaces, enables it to be deployed on both legacy systems and cutting-edge hardware. This versatility is a significant advantage for organizations looking to leverage existing infrastructure while transitioning to newer technologies.

Security is a paramount concern in today's digital landscape, and MOPS/586 addresses this through its robust security framework. The system incorporates user authentication, access control, and secure communication protocols, ensuring that sensitive data remains protected. Additionally, the operating system is regularly updated to address vulnerabilities and threats, keeping users safe in an ever-evolving cybersecurity environment.

Overall, Tri-M Systems MOPS/586 stands out for its modularity, microkernel architecture, real-time support, hardware versatility, and robust security features. These elements combined make it an ideal choice for businesses and developers looking for a reliable, adaptable, and secure operating system for their critical applications. Whether in embedded systems or more extensive computing environments, MOPS/586 delivers the performance and reliability that organizations need to succeed in today’s technology-driven world.