Intel E1600 BX80557E1600 User Manual
Product codes
BX80557E1600
Intel
®
Celeron
®
Processor on 0.13 Micron Process in the 478-Pin Package Datasheet
75
Pin Listing and Signal Definitions
DRDY#
Input/
Output
DRDY# (Data Ready) is asserted by the data driver on each data transfer,
indicating valid data on the data bus. In a multi-common clock data transfer,
DRDY# may be deasserted to insert idle clocks. This signal must connect the
appropriate pins of all processor system bus agents.
indicating valid data on the data bus. In a multi-common clock data transfer,
DRDY# may be deasserted to insert idle clocks. This signal must connect the
appropriate pins of all processor system bus agents.
DSTBN[3:0]#
Input/
Output
Data strobe used to latch in D[63:0]#.
DSTBP[3:0]#
Input/
Output
Data strobe used to latch in D[63:0]#.
FERR#/PBE#
Output
FERR#/PBE# (floating point error/pending break event) is a multiplexed signal
that is qualified by STPCLK#. When STPCLK# is not asserted, FERR# indicates
a floating-point error and will be asserted when the processor detects an
unmasked floating-point error. When STPCLK# is not asserted, FERR#/PBE# is
similar to the ERROR# signal on the Intel 387 coprocessor, and is included for
compatibility with systems using MS-DOS*-type floating-point error reporting.
When STPCLK# is asserted, an assertion of FERR#/PBE# indicates that the
processor has a pending break event waiting for service. The assertion of
FERR#/PBE# indicates that the processor should be returned to the Normal
state. When FERR#/PBE# is asserted, indicating a break event, it will remain
asserted until STPCLK# is deasserted. For addition information on the pending
break event functionality, including the identification of support of the feature and
enable/disable information, refer to the Intel Architecture Software Developer’s
Manual and the Intel Processor Identification and the CPUID Instruction
application note.
that is qualified by STPCLK#. When STPCLK# is not asserted, FERR# indicates
a floating-point error and will be asserted when the processor detects an
unmasked floating-point error. When STPCLK# is not asserted, FERR#/PBE# is
similar to the ERROR# signal on the Intel 387 coprocessor, and is included for
compatibility with systems using MS-DOS*-type floating-point error reporting.
When STPCLK# is asserted, an assertion of FERR#/PBE# indicates that the
processor has a pending break event waiting for service. The assertion of
FERR#/PBE# indicates that the processor should be returned to the Normal
state. When FERR#/PBE# is asserted, indicating a break event, it will remain
asserted until STPCLK# is deasserted. For addition information on the pending
break event functionality, including the identification of support of the feature and
enable/disable information, refer to the Intel Architecture Software Developer’s
Manual and the Intel Processor Identification and the CPUID Instruction
application note.
GTLREF
Input
GTLREF determines the signal reference level for AGTL+ input pins. GTLREF
should be set at 2/3 VCC. GTLREF is used by the AGTL+ receivers to determine
if a signal is a logical 0 or a logical 1. Refer to
should be set at 2/3 VCC. GTLREF is used by the AGTL+ receivers to determine
if a signal is a logical 0 or a logical 1. Refer to
for the appropriate Platform
Design Guide for details on implementation.
HIT#
HITM#
Input/
Output
Input/
Output
HIT# (Snoop Hit) and HITM# (Hit Modified) convey transaction snoop operation
results. Any system bus agent may assert both HIT# and HITM# together to
indicate that it requires a snoop stall, which can be continued by reasserting
HIT# and HITM# together.
results. Any system bus agent may assert both HIT# and HITM# together to
indicate that it requires a snoop stall, which can be continued by reasserting
HIT# and HITM# together.
IERR#
Output
IERR# (Internal Error) is asserted by a processor as the result of an internal
error. Assertion of IERR# is usually accompanied by a SHUTDOWN transaction
on the processor system bus. This transaction may optionally be converted to an
external error signal (e.g., NMI) by system core logic. The processor will keep
IERR# asserted until the assertion of RESET#.
error. Assertion of IERR# is usually accompanied by a SHUTDOWN transaction
on the processor system bus. This transaction may optionally be converted to an
external error signal (e.g., NMI) by system core logic. The processor will keep
IERR# asserted until the assertion of RESET#.
NOTE: This signal does not have on-die termination and must be terminated on
the system board.
Table 36. Signal Description (Sheet 4 of 8)
Name
Type
Description
Signals
Associated Strobe
D[15:0]#, DBI0#
DSTBN0#
D[31:16]#, DBI1#
DSTBN1#
D[47:32]#, DBI2#
DSTBN2#
D[63:48]#, DBI3#
DSTBN3#
Signals
Associated Strobe
D[15:0]#, DBI0#
DSTBP0#
D[31:16]#, DBI1#
DSTBP1#
D[47:32]#, DBI2#
DSTBP2#
D[63:48]#, DBI3#
DSTBP3#