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Brochures studio templates for pages 2 7 download free. The following is a list of PowerPC processors.
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General-purpose PowerPC processors[edit]
IBM/Motorola[edit]
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PowerPC 600 family[edit]
- 601 50 and 66 MHz
- 602 consumer products (multiplexed data/address bus)
- 603/603e/603ev notebooks, embedded devices
- 604/604e/604ev workstations and low end servers
- 620 the first 64-bit implementation
PowerPC 7xx family[edit]
- 740/750 (1997) 233–366 MHz
Motorola/Freescale[edit]
PowerPC 7xx family[edit]
- PowerPC 740 and 750, 233–366 MHz
- 745/755, 300–466 MHz
PowerPC 74xx family[edit]
- 7400/7410 350–550 MHz, uses AltiVec, a SIMD extension of the original PPC specs
- 7440/7450 micro-architecture family up to 1.5 GHz and 256 kB on-chip L2 cache and improved Altivec
- 7447/7457 micro-architecture family up to 1.83 GHz with 512 kB on-chip L2 cache
- 7448 micro-architecture family (2.0 GHz) in 90 nm with 1MB L2 cache and slightly improved AltiVec (out of order instructions).
- 8640/8641/8640D/8641D with one or two e600 cores, 1MB L2 cache
IBM[edit]
IBM POWER microprocessors[edit]
![1995 1995](https://upload.wikimedia.org/wikipedia/commons/thumb/8/8d/Openbsd61_desktop.png/300px-Openbsd61_desktop.png)
- POWER3, 64-bit, 200–450 MHz (as POWER3-II), originally the PowerPC 630. Introduced in 1998.
- POWER4, 64-bit, dual core, 1.0–1.9 GHz (as POWER4+), follows the PowerPC 2.00 ISA. Introduced in 2001.
- POWER5, 64-bit, dual core, 2 way SMT/core, 1.6–2.0 GHz, follows the PowerPC 2.01 ISA. Introduced in 2004.
- POWER5+, 64-bit, dual core, 2 way SMT/core, 1.9–2.2 GHz, follows the PowerPC 2.02 ISA. Introduced in 2005.
- POWER6, 64-bit, dual core, 2 way SMT/core, 3.6–4.7 GHz, follows the Power ISA 2.03. Introduced in 2007.
- POWER6+, 64 bit, dual core, 2 way SMT/core, 5.0 GHz, follows the Power ISA 2.05. Introduced in 2009.
- POWER7, 64-bit octo core, 4 way SMT/core, 2.4–4.25 GHz, follows the Power ISA 2.06. Introduced in 2010.
- POWER7+, 64-bit octo core, 4 way SMT/core, 3.0–5.0 GHz, follows the Power ISA 2.06. Introduced in 2012.
- POWER8, 64-bit, hex or twelve core, 8 way SMT/core, 5.0 GHz, follows the Power ISA 2.07. Introduced in 2014.
- POWER9, 64-bit, PowerNV 24 cores of 4 way SMT/core, PowerVM 12 cores of 8 way SMT/core, follows the Power ISA 3.0. Introduced in 2016.
- POWER10, 64-bit, up to 48 cores, will follow the Power ISA 3.1. Expected to be available in 2021.
RS64[edit]
- A10 (Cobra), 50–77 MHz, 1995, single chip processor for Series i
- A25/30 (Muskie), 125–154 MHz, 1996, multi chip, 4 way SMP for Series i
- RS64 (Apache), 64-bit, 125 MHz, 1997 for large scale SMP systems Series i and Series p
- RS64-II (Northstar), 262 MHz, 1998
- RS64-III (Pulsar, Istar), 450 MHz in 1999, 600 in 2000
- RS64-IV (Sstar), 750 MHz, multithreading, 2000
PowerPC 7xx family[edit]
- 750CL with 256 kB on die L2 cache at 400–900 MHz introduced in 2006
- 750CX/CXe with 256 kB on die L2 cache at 350–600 MHz
- 750FX with 512 kB L2 cache announced by IBM in 2001 and available early 2002 at 1 GHz
- 750GX with 1 MB L2 cache introduced by IBM in 2003
PowerPC 970 family[edit]
- 970 (2003), 64-bit, derived from POWER4, enhanced with VMX, 512 kB L2 cache, 1.4–2 GHz
- 970FX (2004), manufactured at 90 nm, 1.8–2.7 GHz
- 970GX (2006), manufactured at 90 nm, 1MB L2 cache/core, 1.2–2.5 GHz
- 970MP (2005), dual core, 1 MB L2 cache/core, 1.6–2.5 GHz
Cell[edit]
- Cell BE, 64-bit PPE-core, 2 way multithreading, VMX, 512 kB L2 cache, 8x SPE, 8x 256 kB Local Store memory, 3.2 GHz, follows the PowerPC 2.02 ISA
- Cell BE 65 nm, same as above but manufactured on a 65 nm process
- PowerXCell 8i, same as above but with enhanced double precision SPEs and support for DDR-RAM
Supercomputer[edit]
- Blue Gene/L, dual core PowerPC 440, 700 MHz, 2004
- Blue Gene/P, quad core PowerPC 450, 850 MHz, 2007
- Blue Gene/Q, 18 core PowerPC A2, 1.6 GHz, 2011
Other[edit]
- Exponential Technologyx704, a BiCMOS PowerPC implementation, 410 to 533 MHz
- P.A. SemiPWRficient PA6T-1682M, a dual-core microprocessor that runs at 2 GHz
Embedded PowerPC[edit]
32-bit and 64-bit PowerPC processors have been a favorite of embedded computer designers. To keep costs low on high-volume competitive products, the CPU core is usually bundled into a system-on-chip (SOC) integrated circuit. SOCs contain the processor core, cache and the processor's local data on-chip, along with clocking, timers, memory (SDRAM), peripheral (network, serial I/O), and bus (PCI, PCI-X, ROM/Flash bus, I2C) controllers. IBM also offers an open bus architecture (called CoreConnect) to facilitate connection of the processor core to memory and peripherals in a SOC design. IBM and Motorola have competed along parallel development lines in overlapping markets. A later development was the Book E PowerPC Specification, implemented by both IBM and Freescale Semiconductor, which defines embedded extensions to the PowerPC programming model.
AMCC[edit]
- 440SP: 533–667 MHz, 10/100/1G Ethernet, (2) 64bit PCI-X, 32bit PCI-X, XOR engine, 32k L1 Cache.
- 440SPe: 533–667 MHz, 10/100/1G Ethernet, (3) 64bit PCI-Express, 64bit PCI-X, XOR engine, 32k L1 Cache.
- 440EPx: 333–667 MHz, (2) 10/100/1G Ethernet, Hardware Security, PCI, DDR-II, FPU, USB 1.1 or USB 2.0, 32k L1 Cache.
- 440GR: 333–667 MHz, (2) 10/100 Ethernet, (4) UART, (2) IIC, 53 GPIO, SPI, 32k L1 Cache.
- 440GRx: 333–667 MHz, (2) 10/100/1G Ethernet, (4) UART, (2) IIC, 53 GPIO, SPI, DDR-II, Hardware Security, 32k L1 Cache.
- PowerPC Titan, 32-bit, dual core, 2 GHz. Announced, planned release in 2008
Broad Reach Engineering[edit]
- BRE440radiation hardened CPU based on PowerPC 440 core with 256 kB L2 Cache, PCI, (2) 10/100 Ethernet, 4-CH DMA, (2) UART, extensive on chip memory control. Designed specifically for radiation environments and extreme temperature environments (such as space).
BAE Systems[edit]
- RAD750radiation hardened CPU based on PowerPC 750 core.
Culturecom[edit]
- V-Dragon based on PowerPC 405 core.
Cray[edit]
- SeaStar, SeaStar2 and SeaStar2+, PowerPC 440 based communications processors for their Opteron based XT3, XT4 and XT5 supercomputers.
Freescale (former Motorola)[edit]
- MPC8xx PowerQUICC – networking & telecom card controllers with embedded communications module, up to 80 MHz
- MPC5xx – automotive & industrial controllers
- MPC51xx/MPC52xx – e300 core, automotive & industrial system on a chip (SoC) controllers, up to 466 MHz
- MPC55xx – e200 core, automotive & industrial controllers, up to 144 MHz
- MPC56xx – e200 core, automotive & industrial controllers, up to 264 MHz
- MPC82xx PowerQUICC II – 603e core, networking & telecom SoC controllers with high-capacity on-chip switched bus and communications module, up to 450 MHz
- MPC83xx PowerQUICC II Pro – e300 core, networking & telecom SoC controllers with high-capacity on-chip switched bus and communications module, up to 667 MHz
- MPC85xx PowerQUICC III – e500 core, high end networking & telecom SoC controllers with high-capacity on-chip switched bus and communications module. D Dual core versions supporting both symmetric and asymmetric multiprocessing, up to 1.5 GHz.
- MPC864x – e600 core, 1 MB L2 cache, improved AltiVec (out of order instructions), an embedded memory controller, Ethernet controllers, a RapidIO fabric interface, a PCI Express interface, and MPX bus. Dual core versions supporting both symmetric and asymmetric multiprocessing, up to 1.5 GHz.
- QorIQ Processing Platforms (evolution of the PowerQUICC). The first letter of the model indicates the series, the second and the third model number indicates the number of cores (e.g. P5040 has four cores, T4240 has 24 cores)
- P series
- P1 series, e500v2 cores: P1011, P1020
- P2 series: e500v2 core P2020, e500mc cores P2040, P2041
- P3 series, introduced in 2010, based on e500mc cores: P3041
- P4 series, introduced in 2009, based on e500mc cores: P4080
- P5 series, introduced in 2012, 45 nm process, based on e5500 cores: P5010, P5020, P5021, P5040
- T series, introduced in 2013, all based on e6500 cores, and 28 nm process
- T1 series: T1040, T1042, T1020, T1022
- T2 series: T2080, T2081
- T4 series: T4240, T4160, T4080
- P series
IBM (now from AMCC)[edit]
- 403: MMU added in most advanced version 403GCX
- 405: MMU, Ethernet, serial, PCI, SRAM, SDRAM; NPe405 adds more network devices
- 440: A range of processors based on the Book E core.
- 440EP: 333–667 MHz, (2) 10/100 Ethernet, PCI, DDR, FPU, USB 1.1 or USB 2.0, 32k L1 Cache.
- 440GP: 400–500 MHz, (2) 10/100 Ethernet, PCI-X, DDR, 32k L1 Cache.
- 440GX: 533–800 MHz, (2) 10/100 Ethernet, (2) 10/100/1G Ethernet with TCP/IP hardware acceleration, PCI-X, DDR, 32k L1 Cache
Microsoft[edit]
- Xenon (Microsoft Xbox 360) – Three core PPE-based, 1 MB shared L2 cache, VMX128, 3.2 GHz
Nintendo[edit]
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- Gekko (GameCube) – 750CXe core with special enhancements, 485 MHz
- Broadway (Wii) – 750CL, 729 MHz
- Espresso (Wii U) – 3 × 750 cores, 1.24 GHz
P.A. Semi[edit]
- PWRficient PA6T-1682M: a dual core PPC running at 2 GHz
Rapport[edit]
- Kilocore 1025: a CPU with a single PowerPC core and 1024 processing element (8 bit, 125 MHz) cores (unreleased). This CPU is designed for running security and multimedia applications (with parallel processing) on portable game devices and media players.
Xilinx[edit]
- Some Virtex-II Pro and Virtex-4 FPGA have up to two embedded PowerPC 405 cores,.[1][2]
- Virtex-5 FXT has up to two embedded PowerPC 440 cores.
Northbridge[edit]
Northbridge or host bridge for PowerPC CPU is an Integrated Circuit (IC) for interfacing PowerPC CPU with memory, and Southbridge IC. Some Northbridge also provide interface for Accelerated Graphics Ports (AGP) bus, Peripheral Component Interconnect (PCI), PCI-X, PCI Express, or Hypertransport bus. Specific Northbridge IC must be used for PowerPC CPU. It is impossible to use Northbridge for Intel or AMD x86 CPU with PowerPC CPU. However it is possible to use certain types of x86 Southbridge in PowerPC based motherboards. Example: VIA 686B and AMD Geode CS5536.
List of Northbridge for PowerPC:
- IBM:
- CPC 700 and CPC 710 for IBM PowerPC 750 series.
- CPC 925 and CPC 945 for IBM PowerPC 970 series.
- Motorola (now available from Tundra):
- MPC-105
- MPC-106
- MPC-107
- Mentor Arc Inc. (MAI).
- Articia S.
- Marvell Discovery series for Motorola MPC74xx and MPC75x and IBM 750 series CPU.
- Discovery ( GT-64260A, GT-64261A and GT-64262A).
- Discovery LT (MV64420 and MV64430).
- Discovery II (MV64360, MV6361 and MV6362).
- Discovery III (MV64460, MV6461 and MV6462).
- Discovery V (MV 64560).
- Discovery VI(MV 64660).
- Philips Semiconductor
- VAS96011 and VAS96012: Two IC northbridge for PowerPC 603 and PowerPC 604.
- Tundra (Canada)
- TSI-106 (formerly Motorola MPC-106).
- TSI-107 (formerly Motorola MPC-107) / XPC107APX series.
- TSI-108
- TSI-109
- TSI-110
- Qspan II – PCI bus interface for PowerPC CPU.
- PowerPro (CA91L750) – Memory controller for PowerPC CPU.
See also[edit]
References[edit]
- ^Virtex-II Pro datasheetArchived 2006-10-25 at the Wayback Machine
- ^Virtex-4 family overviewArchived 2006-10-15 at the Wayback Machine
Retrieved from 'https://en.wikipedia.org/w/index.php?title=List_of_PowerPC_processors&oldid=964300297'
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I recently moved my home NAS over from a Synology DS1511 that I got in May of 2011 to a DS1520 that just came out.
I have blogged about the joy of having a home server over these last nearly 10 years in a number of posts.
- I setup a home backup strategy without the cloud
- I later added CrashPlan Cloud Backup and still use it.
- A few years back I set up VPN on my Synology as well an internal Git Server and a Minecraft Server for the kids
- I also setup Plex for home movie storage
- You can also run Docker images with things like Pi-Hole ad blocking
That migration to the new Synology is complete, and I used the existing 2TB Seagate drives from before. These were Seagate 2TB Barracudas which are quite affordable. They aren't NAS rated though, and I'm starting to generate a LOT of video since working from home. I've also recently setup Synology Active Backup on the machines in the house, so everyone's system is imaged weekly, plus I've got our G-Suite accounts backed up locally.
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I wanted to get reliable large drives that are also NAS-rated (vibration and duty cycle) and the sweet spot right for LARGE drives now is a 10TB Seagate IronWolf NAS drive. You can also get 4TB drives for under $100! I'm 'running a business' here so I'm going to deduct these drives and make the investment so I got 4 drives. I could have also got two 18TBs, or three 12TBs to similar effect. These drives will be added to the pool and become a RAID'ed roughly 21TB.
My Synology was running the ext4 file system on Volume1, so the process to migrate two all new drives and an all new file system was very manual, but very possible:
- Use a spare slot and add one drive.
- I had a hot spare in my 5 drive NAS so I removed it to make a spare slot. At this point I have my 4x2TB and 1x10TB in slots.
- Make a new Storage Pool on the one drive
- Make a new Volume with the newer Btrfs file system to get snapshots, self-healing, and better mirroring.
- Copy everything from Volume1 to Volume2.
- I copied from my /volume1 to /volume2. I made all new shares that were 'Videos2' and 'Software2' with the intention to rename them to be the primaries later.
- Remove Volume1 by removing a drive at a time until the Synology decides it's 'failed' and can be totally forgotten.
- As I removed a 2TB drive, I replace it with a 10TB and expanded the new Storage Pool and the Volume2. These expansions take time as there's a complete consistency check.
- Repeat this step for each drive.
- You can either leave a single drive as Volume1 and keep your Synology Applications on them, or you can
- Use a 3rd party Package Manager app called the MODS Package Mover.
- Both of these has some risk. I did have to reinstall a few packages from scratch, including the Synology 'Moments' photo manager.
- When I've removed the final Storage Pool (as seen in the pic below) and my apps are either reinstalled on Volume 2 or I've moved them, I renamed all my shares from 'Software2' etc to Software, removing the appended '2.'
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The wholes process took a few days with checkpoints in between. Be ready to have a plan, go slow, and execute on that plan, checking in as the file system consistency checks itself.
To be clear, another way would have been to copy EVERYTHING off to a single external drive, torch the whole Synology install, install the new drives, and copy back to the new install. There would have been a momentary risk there, with the single external holding everything. It's up to you, depending on your definitions of 'easy' and 'hassle.' My way was somewhat tedious, but relatively risk free. Net net - it worked. Consider what works for you before you do anything drastic. Make a LOT OF BACKUPS. Practice the Backup Rule of Three.
Note you CAN remove all but one drive from a Synology as the 'OS' seems to be mirrored on each drive. However, your apps are almost always on /volume1/@apps
Some Synology devices have 10Gbs connectors, but the one I have has 4x1Gbs. Next, I'll Link Aggregate those 4 ports, and with a 10Gbps desktop network card be cable to at get 300-400MB/s disk access between my main Desktop and the NAS.
The Seagate drives have worked great so far. My only criticism is that the drives are somewhat louder (clickier) than their Western Digital counterparts. This isn't a problem as the NAS is in a closet, but I suspect I'd notice the sound if I had 4 or 5 drives going full speed with the NAS sitting on my desk.
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Here are my other Synology posts:
Hope this helps!
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About Scott
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Scott Hanselman is a former professor, former Chief Architect in finance, now speaker, consultant, father, diabetic, and Microsoft employee. He is a failed stand-up comic, a cornrower, and a book author.
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