IBM q5-44-3974-04 manual Only, Guide for, Object Document Content Architecture, SC31Reference-6802

Page 19

ŸThe DBCS Resident Raster, including DBCS Scalable Font Sets (as a separately-orderable feature)

ŸA facility for adding and deleting fonts in IBMthe 3130printer. Refer t

Advanced Function Printer System AdministrationforGuidemore information about managing fonts.

Ÿ

Downloading

fonts from the host.

For

a more

detailed description of each font set, see Appendix A,

on

page 37.

 

The 3130 supports the following for PostScript and PCL-5e fonts:

ŸVarious resident fonts (see “PostScript Resident Font Set” on page

“PCL5e

Resident

Font

Set” on

page 55) You can print samples

of

reside

fonts from the printer.IBMRefer3130toAdvanced Function Printer User's

Guide for

printing

out resident

fonts

 

 

 

Ÿ (PostScript

only)

A

facility

for

adding and deleting

fonts

in

the p

IBM

3130

Advanced

Function

Printer Administrationfor Guidemore

information

about managing fonts.

ŸDownloading fonts from the host or server.

Performance and Print

Quality

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

The

3130

prints

up to

30

impressions per

minute

in

either simplex

or

when using

long-edge fed paper; it prints

up

to

15

impressions

per

mi

short-edge

fed paper. Table 2

on

page 8

summarizes

the

types

of

pap

use and the maximum impressions

per

minute

you

can

print.

 

 

 

 

Notes:

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

1. Actual

printer

performance

is affected by

a

number

of

factors,

 

you

configure

the

printer,

the

complexity

of

the

data

you

print,

 

of

the

host-system

and

the

attachment

you

use,

and

the

amount

of

memory.

2.The quality of printer output is affected by the paper you u composition of the logical pages you print.

Advanced Function Image

and

Graphics

(IPDS

Only)

 

 

 

 

The 3130 can directly process advanced Image

Object

Content

Archite

images and Graphics Object Content Architecture (GOCA) graphics data,

described Mixedin

Object Document Content Architecture, SC31Reference-6802.

 

This, in

turn,

provides

the following

performance

benefits:

 

Ÿ

The

3130

can

process compressed

images and

vector

graphics

data

 

GOCA format, thus reducing demand on attachment data transfer and

 

storage.

 

 

 

 

 

 

 

ŸThe 3130, rather than the host system, decompresses images and r

vectors, thus reducing host system processing cycles.

ŸThe 3130 can perform arbitrary scaling operations or resolution cor

scanned images, which allows

some complex

jobs to print at greater

by increasing the overall data-processing

speed of the

printer.

Chapter 1.

Introduction to

the 3130 Advanced7

Function Printe

Page 18 Page 20
Image 19
Page 18 Page 20
Contents Introduction and Planning Guide IBMIBM Fifth Edition SeptemberContents Dbcs 3130Set IBMAppendix B. Software and Hardware Requirements AIXPlugs IndexPage Federal Communications FCC StatementCommunication Statements CommissionEmvg AvisMinistère Des StatementTrademark Company TrademarksPresentation Printer Information, G544-3290 Attachment ConfigurationRelated Publications 60 3130, 3160, and 3935 Advanced Function PrinterWhats New in This Release Page Printer Advanced FunctionGeneral Description High-capacity Simplex 02S ModelsModel Model Number Comes Standard with This Simplex 01SCommon Highlights Optional FeaturesDuplex 02D Ipds Application Environment Optional FeaturesFeature Host EnvironmentsLPR FTP Tftp Operational Capabilities3130 Advanced Function Printer Users forGuide details Sdlc TCP/IP SystemLevels Data SecurityFonts Toner CartridgeAdvanced Function Image Object Document Content Architecture, SC31Reference-6802Only Guide forSize Paper SizesMinute Chapter Overview Planning OverviewStep Two-Review Implementation PlanSite Use Attachment Configuration Handbook , S544-3977Additional Planning Tasks 3130 You MustPage Performance Considerations Processing EnvironmentHoles Compatibility ConsiderationsAttachments ProgramsGoca Objects ConversionIPDS-Only Ioca Images and IM ImagesGuide Definitions and Form DefinitionsBar Codes SystemDDS Overlay Generation Language/370Box Draw Function FontsRAM Other Font ConsiderationsPCL Ventilation Environmental Requirements Temperature and HumidityPreparing the Physical Environment Altitude RangeLevel Power RequirementsPower Dissipation Sound LevelsMode Physical Requirements Weight and DimensionsService Clearances Physical Layout and Space Requirements25.75 Installation RequirementsService Clearances ValuesPhysical Installation Worksheet Physical Installation WorksheetPage In3130 Advanced Function Printer Users Guide ConfiguringPrinter Configuration Worksheet 3160System Attachments Other Configuration ConsiderationsData Stream Configurations Font ManagementEthernet TCP/IP and NetWare Attachment Twinaxial AttachmentSdlc SNA Attachment Attachment PC Parallel AttachmentPart Number Replace Every Ordering and Storing SuppliesPrinter Supplies Ordering SuppliesSelecting Paper Feed Orientation Imp per Minute Paper ParametersParameter Label ParametersPrepunched Paper To theAdvanced Function Printer Cut-Sheet Paper .ReferencePrepunched Paper Clearances -- A4, B5, and Letter Size Paper CassettesEnvelopes Preprinted PaperDimensions Humidity TemperatureStoring Paper and Supplies Printer Cut-Sheet Paper Reference , yourLists Type Faces Appendix a Font SetLists Code Pages that correspond Each Cyrillic Greek SymbolsArabic Lists Code pages Used With IBM Core Interchange Lists ValidSubsets For each ListedLatin 4/5 Hebrew Width AltFont PitchAlt Pitch Point Font Code Other Resident Fonts IPDS-OnlyAlt Point Font Size WidthProvides an explanation Groups As used in the Code Pa Dbcs Resident Raster Font Set IPDS-Only Gcsgid SubsetsSize Box PointRes Following Tables List ScalableScalable Font Set Korean Dbcs Resident Scalable Code Page SetCharacter Set TypefaceSubsets AS/400 Bolding Function Native OfficeVision IPDS-OnlyResult Cyrillic Greek 2 of 2. IBM Core Interchange Resident Scalable Font SetType Fonts PostScript Resident Font SetFont Name used in PostScript Programs Full APL2 Type 42 Fonts Duplicate Type 1 FontsFont Name used in PostScript Programs Outline 300 pel Only This Font Set is availableFont Type Font Type Symbol Set Set ID SupportLanguage SymbolWindows Latin 12J MC Text Multilingual 19M Symbol 579L PCL5e Language SupportTCP/IP Appendix B. Software and Hardware RequirementsData Stream SNAToken-Ring SNA ConsiderationsRisc SystemNovell NetWare VM SupportSystem Other SupportFollowing workstation software supports the 3130 with Support NotesHost PSF/VSE Support PSF/MVS SupportJES3 CPI PSF/VM SupportPSF For OS/400 Support Host Print Transforms for OS/400System Test Advanced Function Printer Attachment Configuration HandbookPSF/2 Support ForIeee Cabling System Technical Interface ,Specification GA27-3773Ethernet Network Attachment NetWare attachment,IBM InfoPrint see 60 3130PSF Support Summary PSF/VM CPU Attachment HardwareRisc Appendix B. Software and Hardware Requirements Ipds PCL-5e and PostScript Support Notes PSF/MVS Support PSF/VM Support PSF/2 Support Ethernet Network Attachment PSF Support Summary PSF/VM Attachment Hardware Risc Title Number BibliographySystem/370 4300 Glossary Unit DiagnosticPoint DataSection SetDry Ink PrintingIpds NormallyinstallationInitial IMLRadiation KanjiLight NUp PrintingPica Output StackerStorage ElementScan Print ModePortrait ArasterSystem/370 LinkSense Byte Sense DataBibliography Acronyms AbbreviationsIndex Numerics LAN FontsPrint Page Comments Readers Comments Wed Like to Hear from YouBoulder Readers Comments Wed Like to Hear from You

q5-44-3974-04 specifications

The IBM Q5-44-3974-04 is a prominent model in IBM's line of quantum computing systems, showcasing the company's groundbreaking advancements in quantum technology. Designed to facilitate research and practical applications in the field of quantum computing, the Q5-44-3974-04 exemplifies IBM's commitment to making quantum systems accessible to a wider range of industries and researchers.

One of the distinctive features of the Q5-44-3974-04 is its qubit architecture. Leveraging superconducting qubits, this model utilizes a combination of transmon qubits, which are known for their improved error rates and coherence times, enabling more reliable computations. The system typically incorporates a greater number of qubits compared to previous models, allowing for more complex quantum algorithms to be executed.

In terms of technologies, the Q5-44-3974-04 is embedded with advanced quantum error correction techniques. These methods are crucial for mitigating the effects of noise and decoherence, both of which can significantly impact the performance of quantum computations. By implementing sophisticated control systems and pulse optimization techniques, IBM has been able to enhance the fidelity of quantum gates, thereby improving the overall performance of the quantum processor.

The Q5-44-3974-04 also features a user-friendly cloud-based interface, enabling researchers and developers to access its computational power remotely. This cloud integration allows users to run quantum algorithms, perform simulations, and interact with quantum circuits without the need for specialized hardware. This accessibility has been a game-changer, fostering collaboration across disciplines and accelerating the pace of quantum research.

Moreover, the system is designed with scalability in mind, enabling future upgrades both in hardware and software. This adaptability ensures that as the field of quantum computing evolves, the Q5-44-3974-04 can accommodate advancements, thereby extending its utility and lifespan.

Finally, IBM emphasizes the integration of their quantum systems with classical computing resources through hybrid quantum-classical algorithms. This convergence allows for the optimal use of classical and quantum capabilities, paving the way for innovative solutions to complex problems in fields such as cryptography, optimization, and materials science.

In summary, the IBM Q5-44-3974-04 represents the forefront of quantum technology, equipped with advanced qubits, error correction methods, cloud access, and a scalable architecture, making it a vital tool for researchers and enterprises seeking to harness the power of quantum computing.
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