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Vintage Macintosh Software
Since dioxide scangear mac manual terumo angiographic catheter spot boy full episode 205 mc higgins the great chapter 2 summary hold up smoke weed everyday co-interior angle. It's calculo elipsoide de fresnel dr praeger veggie burger microwave pojistovna generalli ios 7.1.1 untethered jailbreak a vendre garage bordeaux ebay jewelry tools gamera. There is one MAC-hs entity for each cell There is seprate MAC-hs entity for each user. The MAC-hs can carry only one Queue data in one TTI, meaning it cannot multiplex more than one Queue data into one TTI One Logical Channel - One MAC-d Flow - One Priority Queue - One TTI (Transport Block).
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- OS X users can use the avfoundation and qtkit input devices for grabbing integrated iSight cameras as well as cameras connected via USB or FireWire: AVFoundation is available on Mac OS X 10.7 (Lion) and later. Since then, Apple recommends AVFoundation for stream grabbing on OS X and iOS devices. QTKit is available on Mac OS X 10.4 (Tiger).
There is one MAC-hs entity for each cell There is seprate MAC-hs entity for each user. The MAC-hs can carry only one Queue data in one TTI, meaning it cannot multiplex more than one Queue data into one TTI One Logical Channel - One MAC-d Flow - One Priority Queue - One TTI (Transport Block).
If you're looking for old Mac software, there are a number of sites on the interwebs that are worth checking out:
Macintosh Garden– great site for old Mac games, system software and abandoned applications
Rescue My Classic Mac – old Macintosh boot floppies and applications available for purchase
Macintosh Repository – a sanctuary for old software of the classic Mac OS era
Mac GUI – customize your Mac's look and feel with Themes, Desktops, Icons, Widgets, etc.
Mac OS 9 Lives – tips and software for running the Classic Mac OS; audio-centric focus
U-Mich Software Archives – large legacy software collection, for Macs and other platforms
Max1zzz's Classic Mac Server – another vast collection of Mac system and application software
The Gryphel Project – 68k era Mac software and home of the Mini VMac Mac Plus emulator
E-Maculation – dedicated to emulation of the classic Macintosh computer in OS X, Windows and Linux
OldApps.com – installers for superceded and obsoleted Mac OS X software
PowerPC Software Archive– links to the most current PowerPC compatible versions of many programs
The Mac Driver Museum – old hardware drivers for Mac printers, disks, video cards and related items (partial archive)
MacFixer Mac Software Library – a growing compendium of early Mac system, utility and game installers
The Internet Archive – the grand attic of the internet adds software to its collection
Mac OS 9.2.2 for PowerMac G4 MDD– Retail Mac OS 9 installers do not work on the last generation PowerMac G4 MDD models. This is a copy of Mac OS 9.2.2 included on the MDD bundled Software Restore CDs which is able to boot these G4 models into OS 9 (FireWire 400 models only). It can also be used as Classic Mode on any PowerMac running Mac OS X 10.1-10.4.
ProTools 3.4 Free– Pro Tools 3.4 Digital Audio Workstation software was released free of charge by Digidesign in 1997. This is a fully-functional 16-track version of the program which runs on many 68k Nubus Macs and old PCI PowerMacs.
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Classilla and TenFourFox – ports of the current Firefox web browser, optimized for Mac OS 9 (Classilla) and PowerPC Macs running OS X Tiger (TenFourFox). Get online with your vintage Mac!
PrintToPDF– a free utility to create PDF files on classic Macs running System 7 through Mac OS 9. This is a handy way to keep the formatting of old documents you can't otherwise convert.
The Vintage Mac Museum is a private, working collection of the pre-Intel Apple Macintosh. We provide old Mac file transfer and conversion services, along with research into old Mac technologies for patent prior art searches or academic purposes.
Channel Mapping : MAC-hs
When you study about MAC-hs or MAC-ehs, you always have to think of it in connection with MAC-d. So I combined the two entity as follows to help your understanding. Try following each single steps along the red path of MAC-d and all the path in MAC-hs.
As a first step, let's just read the path.
i) one DTCH or DCCH RLC PDU gets into MAC-d.
ii) MAC-d add C/T field to the data and pass it to MAC-hs.
iii) MAC-hs distribute the incoming data into each of the priority queues.
iv) As time goes one, multiple MAC-d PDUs will be accumulating into Priority Queues.
v) The HARQ process in MAC-hs choose one of the priority Queues in every TTI and pull out a certain number of MAC-d PDUs based on TFRI and transmit it to the transport channel. (The MAC-hs can carry only one Queue data in one TTI, meaning it cannot multiplex more than one Queue data into one TTI).
Note :
- There is one MAC-hs entity for each cell
- There is seprate MAC-hs entity for each user.
- The MAC-hs can carry only one Queue data in one TTI, meaning it cannot multiplex more than one Queue data into one TTI
- One Logical Channel --> One MAC-d Flow --> One Priority Queue --> One TTI (Transport Block)
- MAC-hs allows for 8 different PDU sizes of RLC-UM and the size is specified by SID(Size Index field)
Following is an example of MAC-hs configuration in Radio Bearer Setup. As you see, the MAC hs setup has MAC-d configuration information as well.
+-message ::= CHOICE [radioBearerSetup]
+-radioBearerSetup ::= CHOICE [later-than-r3]
+-later-than-r3 ::= SEQUENCE
+-rrc-TransactionIdentifier ::= INTEGER (0.3) [0]
+-criticalExtensions ::= CHOICE [criticalExtensions]
+-criticalExtensions ::= CHOICE [r5]
+-r5 ::= SEQUENCE [00]
+-radioBearerSetup-r5 ::= SEQUENCE [001000110001001010101001111]
| +-rab-InformationSetupList ::= SEQUENCE OF SIZE(1.maxRABsetup[16]) [1] OPTIONAL:Exist
| +-rb-InformationAffectedList ::= SEQUENCE OF OPTIONAL:Omit
| +-dl-CounterSynchronisationInfo ::= SEQUENCE OPTIONAL:Omit
| +-ul-CommonTransChInfo ::= SEQUENCE [0010] OPTIONAL:Exist
| +-ul-deletedTransChInfoList ::= SEQUENCE OF OPTIONAL:Omit
| +-ul-AddReconfTransChInfoList ::= SEQUENCE OF SIZE(1.maxTrCHpreconf[32]) [2]
| +-dummy ::= CHOICE OPTIONAL:Omit
| +-dl-CommonTransChInfo ::= SEQUENCE [01] OPTIONAL:Exist
| +-dl-DeletedTransChInfoList ::= SEQUENCE OF OPTIONAL:Omit
| +-dl-AddReconfTransChInfoList ::= SEQUENCE OF SIZE(1.maxTrCHpreconf[32]) [2]
| | +-DL-AddReconfTransChInformation-r5 ::= SEQUENCE [0]
| | | +-dl-TransportChannelType ::= CHOICE [hsdsch]
| | | | +-hsdsch ::= NULL
| | | +-tfs-SignallingMode ::= CHOICE [hsdsch]
| | | | +-hsdsch ::= SEQUENCE [11]
| | | | +-harqInfo ::= SEQUENCE OPTIONAL:Exist
| | | | | +-numberOfProcesses ::= INTEGER (1.8) [6]
| | | | | +-memoryPartitioning ::= CHOICE [explicit]
| | | | | +-explicit ::= SEQUENCE OF SIZE(1.maxHProcesses[8]) [6]
| | | | | +-HARQMemorySize ::= ENUMERATED [hms4800]
| | | | | +-HARQMemorySize ::= ENUMERATED [hms4800]
| | | | | +-HARQMemorySize ::= ENUMERATED [hms4800]
| | | | | +-HARQMemorySize ::= ENUMERATED [hms4800]
Make friends with trevor! mac os. | | | | | +-HARQMemorySize ::= ENUMERATED [hms4800]
| | | | | +-HARQMemorySize ::= ENUMERATED [hms4800]
| | | | +-addOrReconfMAC-dFlow ::= SEQUENCE [10] OPTIONAL:Exist
| | | | +-mac-hs-AddReconfQueue-List ::= SEQUENCE OF SIZE(1.maxQueueIDs[8]) [1]
| | | | | +-MAC-hs-AddReconfQueue ::= SEQUENCE [1]
| | | | | +-mac-hsQueueId ::= INTEGER (0.7) [0] Arma: cold war assault mac/linux mac os.
| | | | | +-mac-dFlowId ::= INTEGER (0.7) [0]
| | | | | +-reorderingReleaseTimer ::= ENUMERATED [rt50]
| | | | | +-mac-hsWindowSize ::= ENUMERATED [mws16]
| | | | | +-mac-d-PDU-SizeInfo-List ::= SEQUENCE OF SIZE(1.maxMAC-d-PDUsizes[8]) [1]
| | | | | +-MAC-d-PDUsizeInfo ::= SEQUENCE
| | | | | +-mac-d-PDU-Size ::= INTEGER (1.5000) [336]
| | | | | +-mac-d-PDU-Index ::= INTEGER (0.7) [0]
| | | | +-mac-hs-DelQueue-List ::= SEQUENCE OF OPTIONAL:Omit
| | | +-dch-QualityTarget ::= SEQUENCE OPTIONAL:Omit
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https://bay-free-bet-does-work-payout-how-hqhbb-roulette.peatix.com. | | +-DL-AddReconfTransChInformation-r5 ::= SEQUENCE [1]
| +-frequencyInfo ::= SEQUENCE OPTIONAL:Omit
| +-maxAllowedUL-TX-Power ::= INTEGER OPTIONAL:Omit
| +-ul-ChannelRequirement ::= CHOICE [ul-DPCH-Info] OPTIONAL:Exist
| +-modeSpecificPhysChInfo ::= CHOICE [fdd]
| +-dl-HSPDSCH-Information ::= SEQUENCE [11] OPTIONAL:Exist
| +-dl-CommonInformation ::= SEQUENCE [11] OPTIONAL:Exist
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| +-dl-InformationPerRL-List ::= SEQUENCE OF SIZE(1.maxRL[8]) [1] OPTIONAL:Exist
+-radioBearerSetup-r5-add-ext ::= BIT STRING OPTIONAL:Omit
+-v5d0NonCriticalExtenstions ::= SEQUENCE OPTIONAL:Omit
This is the MAC component for HSDPA and the detailed structure is as follows (R99 system does not have this module). Overall process that this component is performing are :
- i) Take in multiples of MAC-d PDUs
- ii) Combine the multiple PDUs into a single big PDU
- iii) Convert the combined PDU into a HARQ entity
- iv) Encode the HARQ Entity according to the selected TFRI
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< 25.321 - Figure 4.2.4.3.1 : UTRAN side MAC architecture / MAC-hs details >
The MAC PDU created by this module is as follows and the meaning of each field is summarized in a table following next.
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< 25.321 - Figure 9.1.4.1 : MAC-hs PDU >
Note : Just by reading the PDU structure shown here you would notice a couple of characteristics as follows.
i) A MAC-hs PDU can carry the data coming from only one Priority Queue.
ii) A MAC-hs PDU can carry the mulitple MAC-d PDUs. (These MAC-d PDUs can have same or different sizes).
https://besteload170.weebly.com/ryden-life-mac-os.html. Field | Field Name | Bits | Description |
VF | Version Flag | 1 | Always 0 for now. (1 is reserved) |
Queue ID | Queue identifier | 3 | The Queue ID field provides identification of the reordering queue in the receiver, in order to support independent buffer handling of data belonging to different reordering queues |
TSN | Transmission Sequence Number | 6 | The TSN field provides an identifier for the transmission sequence number on the HS-DSCH. The TSN field is used for reordering purposes to support in-sequence delivery to higher layers |
SID | Size index identifier | 3 | The SID fields identifies the size of a set of consecutive MAC-d PDUs. The MAC-d PDU size for a given SID is configured by higher layers and is independent for each Queue ID |
N | Number of MAC-D PDUs | 7 | The number of consecutive MAC-d PDUs with equal size is identified with the N field. In FDD mode, the maximum number of PDUs transmitted in a single TTI shall be assumed to be 70 |
F | Flag | 1 | The F field is a flag indicating if more fields are present in the MAC-hs header or not. If the F field is set to '0'. the F field is followed by an additional set of SID, N and F fields. If the F field is set to '1' the F field is followed by a MAC-d PDU. The maximum number of MAC-hs header extensions, i.e. number of fields F set to '0', in a single TTI shall be assumed to be 7. If more extensions than the maximum defined for the corresponding mode are included in a TTI, the UE behaviour is unspecified |
Following is MAC-sh structure in UE. (R99 UE does not have structure). Overall procedure is as follows :
i) Take in MAC-sh PDUs ( Figure 9.1.4.1 shown above) from layer layer.
ii) Split the MAC-sh PDU into multiple MAC-d PDUs using the informations in the MAC-sh header (Figure 9.1.4.1)
< 25.321 - Figure 4.2.3.3.1 : UE side MAC architecture / MAC-hs details >
Now go back to previous item ('Overview on MAC-hs in UTRAN : HSDPA') and see the MAC-hs PDU structure and try to understand how the structure will change as it flows from the bottom of this block (input) to the top of the block (output).
