Intel L5410 AT80574JJ053N データシート
製品コード
AT80574JJ053N
Quad-Core Intel® Xeon® Processor 5400 Series Electrical Specifications
22
The TESTHI signals must use individual pull-up resistors as detailed below. A matched
resistor must be used for each signal:
resistor must be used for each signal:
• TESTHI10 – cannot be grouped with other TESTHI signals
• TESTHI11 – cannot be grouped with other TESTHI signals
• TESTHI12 - cannot be grouped with other TESTHI signals
• TESTHI11 – cannot be grouped with other TESTHI signals
• TESTHI12 - cannot be grouped with other TESTHI signals
2.7
Front Side Bus Signal Groups
The FSB signals have been combined into groups by buffer type. AGTL+ input signals
have differential input buffers, which use GTLREF_DATA and GTLREF_ADD as reference
levels. In this document, the term “AGTL+ Input” refers to the AGTL+ input group as
well as the AGTL+ I/O group when receiving. Similarly, “AGTL+ Output” refers to the
AGTL+ output group as well as the AGTL+ I/O group when driving. AGTL+
asynchronous outputs can become active anytime and include an active PMOS pull-up
transistor to assist during the first clock of a low-to-high voltage transition.
have differential input buffers, which use GTLREF_DATA and GTLREF_ADD as reference
levels. In this document, the term “AGTL+ Input” refers to the AGTL+ input group as
well as the AGTL+ I/O group when receiving. Similarly, “AGTL+ Output” refers to the
AGTL+ output group as well as the AGTL+ I/O group when driving. AGTL+
asynchronous outputs can become active anytime and include an active PMOS pull-up
transistor to assist during the first clock of a low-to-high voltage transition.
With the implementation of a source synchronous data bus comes the need to specify
two sets of timing parameters. One set is for common clock signals whose timings are
specified with respect to rising edge of BCLK0 (ADS#, HIT#, HITM#, and so forth) and
the second set is for the source synchronous signals which are relative to their
respective strobe lines (data and address) as well as rising edge of BCLK0.
Asynchronous signals are still present (A20M#, IGNNE#, and so forth) and can become
active at any time during the clock cycle.
two sets of timing parameters. One set is for common clock signals whose timings are
specified with respect to rising edge of BCLK0 (ADS#, HIT#, HITM#, and so forth) and
the second set is for the source synchronous signals which are relative to their
respective strobe lines (data and address) as well as rising edge of BCLK0.
Asynchronous signals are still present (A20M#, IGNNE#, and so forth) and can become
active at any time during the clock cycle.
clock, source synchronous and asynchronous.
Table 2-6.
FSB Signal Groups (Sheet 1 of 2)
Signal Group
Type
Signals
1
AGTL+ Common Clock Input
Synchronous to
BCLK[1:0]
BPRI#, DEFER#, RESET#, RS[2:0]#, RSP#,
TRDY#;
AGTL+ Common Clock Output
Synchronous to
BCLK[1:0]
BPM4#, BPM[2:1]#, BPMb[2:1]#
AGTL+ Common Clock I/O
Synchronous to
BCLK[1:0]
ADS#, AP[1:0]#, BINIT#
2
, BNR#
2
, BPM5#,
BPM3#, BPM0#,BPMb3#, BPMb0#, BR[1:0]#,
DBSY#, DP[3:0]#, DRDY#, HIT#
2
, HITM#
2
,
LOCK#, MCERR#
2
AGTL+ Source Synchronous
I/O
Synchronous to assoc.
strobe
AGTL+ Strobes I/O
Synchronous to
BCLK[1:0]
ADSTB[1:0]#, DSTBP[3:0]#, DSTBN[3:0]#
Open Drain Output
Asynchronous
FERR#/PBE#, IERR#, PROCHOT#,
THERMTRIP#, TDO
CMOS Asynchronous Input
Asynchronous
A20M#, FORCEPR#, IGNNE#, INIT#,
LINT0/INTR, LINT1/NMI, PWRGOOD, SMI#,
STPCLK#
Signals
Associated Strobe
REQ[4:0]#,A[16:3]#,
A[37:36]#
ADSTB0#
A[35:17]#
ADSTB1#
D[15:0]#, DBI0#
DSTBP0#, DSTBN0#
D[31:16]#, DBI1#
DSTBP1#, DSTBN1#
D[47:32]#, DBI2#
DSTBP2#, DSTBN2#
D[63:48]#, DBI3#
DSTBP3#, DSTBN3#