Changes between Version 23 and Version 24 of InterconnexionNetworks


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Timestamp:
Aug 30, 2010, 12:26:27 PM (14 years ago)
Author:
alain
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  • InterconnexionNetworks

    v23 v24  
    2424
    2525The X_ID, Y_ID and L_ID are coded on NX, NY, NL bits respectively.
    26 The NX, NY and NL parameters are global for a given instance of the TSAR architecture, but  NX & NY cannot be larger than 5 (no more than 1024 clusters), and NL cannot be larger than 4 (no more than 16 ports per cluster).
     26The NX, NY and NL parameters are global for a given instance of the TSAR architecture.  NX & NY cannot be larger than 5 (no more than 1024 clusters),
     27but can be smaller, if the number of clusters is larger than 1024. NL cannot be larger than 4 (no more than 16 ports per cluster).
    2728
    2829In order to simplify the hardware implementation of the memory coherence protocol, the L_ID values are standardized on the coherence network, and the same value is used for an initaitor port and for a target port:
    2930
    30 ||COMPONENT              ||LOCAL_INDEX||
    31 ||                       ||           ||
    32 ||Memory Cache           ||0000       ||
    33 ||Processor 0 (L1 cache) ||0001       ||
    34 ||Processor 1 (L1 cache) ||0010       ||
    35 ||Processor 2 (L1 cache  ||0011       ||
    36 ||Processor 3 (L1 cache) ||0100       ||
     31||COMPONENT              ||L_ID||
     32||                       ||    ||
     33||Memory Cache           ||0000||
     34||Processor 0 (L1 cache) ||0001||
     35||Processor 1 (L1 cache) ||0010||
     36||Processor 2 (L1 cache  ||0011||
     37||Processor 3 (L1 cache) ||0100||
    3738
    3839=== 2.1 Target identification ===
     
    4142a VCI target is identified by the (NX + NY + NLADR) most significant bits of the VCI ADDRESS field :
    4243
    43 || X (NX bits) || Y (NY bits) || LADR (NLADR bits) ||  OFFSET (40 - NX - NY - NL bits) ||
     44|| X       || Y       || LADR       ||  OFFSET         ||
     45|| NX bits || NY bits || NLADR bits ||  40-NX-NY-NLADR ||
    4446
    4547 * According to the NUMA characteristics of the TSAR architecture, there is no transcoding of the X & Y fields, that directly define the target cluster coordinates  (X_INDEX, Y_INDEX).
     
    5153a VCI initiator is identified by the VCI SRCID & RSRCID fields (NX + NY + NL bits) :
    5254
    53 || X_ID (NX bits) || Y_ID (NY bits) || L_ID (NL bits) ||
    54 
    55 Therefore, the total SRCID width cannot be larger than 14 bits.
     55|| X_ID    || Y_ID    || L_ID    ||
     56|| NX bits || NY bits || NL bits ||
     57
     58Therefore, the total SRCID width cannot be larger than 14 bits. It can use less than 14 bits when the number of clusters is smaller than 1024.
    5659
    5760== 3.  Direct Network & Coherence Network ==
     
    116119 * For a broadcast packet, BC = 1, and the XMIN, XMAX, YMIN, YMAX fields (5 bits each), are used by the network to limit the broadcast.
    117120
     121The DSPIN format has been designed to transport 40 bits VCI ADDRESS, and 14 bits VCI SRCID.
     122If the VCI ADDRESS use less than 40 bits (for example 32 bits), the VCI ADDRESS field is left aligned, and the LSB bits of the DSPIN field are completed with "0".
     123If the SRCID field uses less than 14 bits (NX < 5 or NY < 5), the SRCID field is left aligned, and the LSB bits of the DSPIN field are completed with "O".
     124
    118125The five types of DSPIN packets are defined below:
    119126
     
    151158Flit 0 :
    152159||EOP||XMIN||XMAX||YMIN||YMAX|| CID ||TRDID||PKTID||BC||
    153 || 1 || 5 || 5 || 5 || 5 || 10  || 4   || 4   ||1 ||
     160|| 1 || 5  || 5  || 5  || 5 || 10  || 4   || 4   ||1 ||
    154161Flit 1 :
    155162||EOP||reserved||----------------NLINE-------------------||