NonStop NS16000 Planning Guide (H06.08+)
Integrity NonStop NS16000 System Description
HP Integrity NonStop NS16000 Planning Guide—529567-009
4-7
Triplex Processor
Triplex Processor
The TMR or triplex processor uses three NonStop Blade Elements, A, B, and C. As
with the duplex processor, the optic cables connect the PEs to the LSUs, and these
LSUs then connect to the two independent ServerNet fabrics. Dual ServerNet fabrics
create communications redundancy in case one of the fabrics fails. For a description of
the LSU functions, see Processor Synchronization and Rendezvous on page 4-8.
A triplex processor includes these elements:
In a TMR or triplex processor, each LSU has inputs from three PEs. As with the duplex
processor, the LSU keeps the three PEs in loose lockstep. The triplex processor
provides fault tolerance upon failure of a PE by comparing the output from the three
NonStop Blade Elements to determine which one is errant. This method eliminates the
question of which output is valid when two outputs disagree in a duplex system.
VST310.vsd
NSBE B
NSBE A
NSBE C
NSBE (4-way
SMP server
includes PEs
A0, A1, A2, A3)
PE
A2
PE
B2
PE
C2
PE
A3
PE
B3
PE
C3
Fiber
Optic
Cables
Logical Processor 0
(includes PEs A0, B0, C0
Processor Element A0
(NSBE A, logical processor 0)
23
PE
A0
PE
B0
PE
C0
0
PE
A1
PE
B1
PE
C1
1
LSU
Enclosure
ServerNet Links to
Processor Switch
LSU 0
(for PEs A0, B0, C0)
NonStop Blade
Complex 0
LSU 2
Vote
Logic
A B C
Optic
I/O
X Y
LSU 3
Vote
Logic
A B C
Optic
I/O
X Y
LSU 1
Vote
Logic
A B C
Optic
I/O
X Y
LSU 0
Vote
Logic
A B C
Optic
I/O
X Y