PC755/745
PowerPC 755/745 RISC Microprocessor
Datasheet
Features
•
•
•
•
•
•
•
•
•
•
•
•
•
•
•
18.1SPECint95, Estimates 12.3 SPECfp95 at 400 MHz (PC755)
15.7SPECint95, 9SPECfp95 at 350 MHz (PC745)
733 MIPS at 400 MHz (PC755) at 641 MIPS at 350 MHz (PC745)
Selectable Bus Clock (12 CPU Bus Dividers up to 10x)
P
D
Typical 6.4W at 400 MHz, Full Operating Conditions
Nap, Doze and Sleep Modes for Power Savings
Superscalar (3 Instructions per Clock Cycle) Two Instruction + Branch
4 Beta Byte Virtual Memory, 4-GByte of Physical Memory
64-bit Data and 32-bit Address Bus Interface
32-KB Instruction and Data Cache
Six Independent Execution Units
Write-back and Write-through Operations
f
INT
max = 400 MHz
f
BUS
max = 100 MHz
Voltage I/O 2.5V/3.3V; Voltage Int 2.0V
Description
The PC755 and PC745 Power Architecture
™
microprocessors are high-performance, low-power, 32-bit implementations of
the Power Architecture Reduced Instruction Set Computer (RISC) architecture, especially enhanced for embedded appli-
cations.
The PC755 and PC745 microprocessors differ only in that the PC755 features an enhanced, dedicated L2 cache interface
with on-chip L2 tags. The PC755 is a drop-in replacement for the award winning Power Architecture 750 microprocessor
and is footprint and user software code compatible with the MPC7400 microprocessor with AltiVec
®
technology. The
PC745 is a drop-in replacement for the Power Architecture 740 microprocessor and is also footprint and user software code
compatible with the Power Architecture 603e microprocessor. PC755/745 microprocessors provide on-chip debug support
and are fully JTAG-compliant.
The PC745 microprocessor is pin compatible with the TSPC603e family.
Screening
This product is manufactured in full compliance with:
•
•
•
•
HiTCE CBGA According to e2v Standards
CBGA + CI-CGA + FC-PBGA up Screenings Based upon e2v Standards
Full Military Temperature Ranges (T
C
= -55°C,
T
J
= +125°C)
Industrial Temperature Ranges (T
C
= -40°C, T
J
=
+110°C)
Visit our website: www.e2v.com
for the latest version of the datasheet
e2v semiconductors SAS 2008
0828J–HIREL–07/08
PC755/745
1. General Description
1.1
Simplified Block Diagram
The PC755 is targeted for low power systems and supports power management features such as doze,
nap, sleep, and dynamic power management. The PC755 consists of a processor core and an internal
L2 Tag combined with a dedicated L2 cache interface and a 60x bus.
Figure 1-1.
PC755 Block Diagram
Instruction Unit
Fetcher
Branch Processing
Unit
BTIC
64-Entry
BHT
CTR
LR
128-Bit
(4 Instructions)
Additional Features
* Time Base Counter/Decrementer
* Clock Multiplier
* JTAG/COP Interface
* Thermal/Power Management
* Performance Monitor
Instruction Queue
(6-Word)
Instruction MMU
SRs
(Shadow)
ITLB
IBAT
Array
Tags
32-Kbyte
I Cache
2 Instructions
Dispatch Unit
64-Bit
(2 Instructions)
Reservation Station Reservation Station Reservation Station
GPR File
Rename Buffers
(6)
Reservation Station
(2-Entry)
FPR File
Rename Buffers
(6)
Reservation Station
Integer Unit 1
Integer Unit 2
System Register
Unit
32-Bit
Load/Store Unit
64-Bit
+
(EA Calculation)
Store Queue
64-Bit
Floating-Point
Unit
+ x :
32-Bit
+
+ x :
FPSCR
FPSCR
CR
32-Bit
PA
Completion Unit
Reorder Buffer
(6-Entry)
Data MMU
SRs
(Original)
DTLB
EA
60x Bus Interface Unit
64-Bit
Instruction Fetch Queue
L1 Castout Queue
L2 Bus Interface
Unit
L2 Castout Queue
DBAT
Array
Tags
32-Kbyte
D Cache
Data Load Queue
L2 Controller
L2CR
32-Bit Address Bus
32-/64-Bit Data Bus
17-Bit L2 Address Bus
64-Bit L2 Data Bus
L2 Tags
Not in the PC745
2
0828J–HIREL–07/08
e2v semiconductors SAS 2008
PC755/745
1.2
General Parameters
The following list provides a summary of the general parameters of the PC755:
Technology
Die size
Transistor count
Logic design
PC745
PC755
Core power supply
I/O power supply
0.22 µm CMOS, five-layer metal, 1 layer poly
6.61 mm × 7.73 mm (51 mm
2
)
6.75 million
Fully-static Packages
Surface mount 255 Plastic Ball Grid Array (PBGA)
Surface mount 255 Ceramic Ball Grid Array (Hi-TCE)
Surface mount 360 Plastic Ball Grid Array (PBGA)
Surface mount 360 Ceramic Ball Grid Array (CI-CGA, CBGA, HiTCE)
2V ± 100 mV DC (nominal; some parts support core voltages down to 1.8V; see
“Recommended Operating Conditions
(1)
” on page 16
2.5V ± 100 mV DC or 3.3V ± 165 mV DC (input thresholds are configuration pin
selectable)
1.3
Features
This section summarizes features of the PC755’s implementation of the Power Architecture. Major fea-
tures of the PC755 are as follows:
• Branch Processing Unit
– Four instructions fetched per clock
– One branch processed per cycle (plus resolving 2 speculations)
– Up to 1 speculative stream in execution, 1 additional speculative stream in fetch
– 512-entry Branch History Table (BHT) for dynamic prediction
– 64-entry, 4-way set associative Branch Target Instruction Cache (BTIC) for eliminating
branch delay slots
• Dispatch Unit
– Full hardware detection of dependencies (resolved in the execution units)
– Dispatch two instructions to six independent units (system, branch, load/store, fixed-point
unit 1, fixed-point unit 2, floating-point)
– Serialization control (predispatch, postdispatch, execution serialization)
• Decode
– Register file access
– Forwarding control
– Partial instruction decode
• Completion
– 6 entry completion buffer
– Instruction tracking and peak completion of two instructions per cycle
– Completion of instructions in program order while supporting out-of-order instruction
execution, completion serialization and all instruction flow changes
3
0828J–HIREL–07/08
e2v semiconductors SAS 2008
PC755/745
• Fixed Point Units (FXUs) that share 32 GPRs for Integer Operands
– Fixed Point Unit 1 (FXU1)-multiply, divide, shift, rotate, arithmetic, logical
– Fixed Point Unit 2 (FXU2)-shift, rotate, arithmetic, logical
– Single-cycle arithmetic, shifts, rotates, logical
– Multiply and divide support (multi-cycle)
– Early out multiply
• Floating-point Unit and a 32-entry FPR File
– Support for IEEE
®
-754 standard single and double precision floating point arithmetic
– Hardware support for divide
– Hardware support for denormalized numbers
– Single-entry reservation station
– Supports non-IEEE mode for time-critical operations
• System Unit
– Executes CR logical instructions and miscellaneous system instructions
– Special register transfer instructions
• Load/Store Unit
– One cycle load or store cache access (byte, half-word, word, double-word)
– Effective address generation
– Hits under misses (one outstanding miss)
– Single-cycle unaligned access within double word boundary
– Alignment, zero padding, sign extend for integer register file
– Floating point internal format conversion (alignment, normalization)
– Sequencing for load/store multiples and string operations
– Store gathering
– Cache and TLB instructions
– Big and Little-endian byte addressing supported
– Misaligned Little-endian supported
– Level 1 Cache structure
– 32K, 32 bytes line, 8-way set associative instruction cache (iL1)
– 32K, 32 bytes line, 8-way set associative data cache (dL1)
– Cache locking for both instruction and data caches, selectable by group of ways
– Single-cycle cache access
– Pseudo least-recently used (PLRU) replacement
– Copy-back or Write Through data cache (on a page per page basis)
– Supports all Power Architecture memory coherency modes
– Non-Blocking instruction and data cache (one outstanding miss under hits)
– No snooping of instruction cache
• Level 2 (L2) Cache Interface (not implemented on PC745)
– Internal L2 cache controller and tags; external data SRAMs
– 256K, 512K, and 1-Mbyte 2-way set associative L2 cache support
4
0828J–HIREL–07/08
e2v semiconductors SAS 2008
PC755/745
– Copyback or write-through data cache (on a page basis, or for all L2)
– Instruction-only mode and data-only mode.
– 64 bytes (256K/512K) or 128 bytes (1M) sectored line size
– Supports flow through (register-buffer) synchronous burst SRAMs, pipelined (register-
register) synchronous burst SRAMs (3-1-1-1 or strobeless 4-1-1-1) and pipelined (register-
register) late-write synchronous burst SRAMs
– L2 configurable to direct mapped SRAM interface or split cache/direct mapped or private
memory
– Core-to-L2 frequency divisors of 1, 1.5, 2, 2.5, and 3 supported
– 64-bit data bus
– Selectable interface voltages of 2.5V and 3.3V
– Parity checking on both L2 address and data
• Memory Management Unit
– 128 entry, 2-way set associative instruction TLB
– 128 entry, 2-way set associative data TLB
– Hardware reload for TLBs
– Hardware or optional software tablewalk support
– 8 instruction BATs and 8 data BATs
– 8 SPRGs, for assistance with software tablewalks
– Virtual memory support for up to 4 hexabytes (2
52
) of virtual memory
– Real memory support for up to 4 gigabytes (2
32
) of physical memory
• Bus Interface
– Compatible with 60X processor interface
– 32-bit address bus
– 64-bit data bus, 32-bit mode selectable
– Bus-to-core frequency multipliers of 2x, 3x, 3.5x, 4x, 4.5x, 5x, 5.5x, 6x, 6.5x, 7x, 7.5x, 8x, 10x
supported
– Selectable interface voltages of 2.5V and 3.3V.
– Parity checking on both address and data busses
• Power Management
– Low-power design with thermal requirements very similar to PC740/750.
– Selectable interface voltage of 1.8V/2.0V can reduce power in output buffers (compared to
3.3V)
– Three static power saving modes: doze, nap, and sleep
– Dynamic power management
• Testability
– LSSD scan design
– IEEE 1149.1 JTAG interface
• Integrated Thermal Management Assist Unit
– One-ship thermal sensor and control logic
– Thermal Management Interrupt for software regulation of junction temperature
5
0828J–HIREL–07/08
e2v semiconductors SAS 2008
嵌入式系统
