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{{princeton title|Piton}} | {{princeton title|Piton}} | ||
− | {{ | + | {{mpu |
| name = Piton | | name = Piton | ||
| no image = | | no image = | ||
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| transistors = 460,000,000 | | transistors = 460,000,000 | ||
| technology = CMOS | | technology = CMOS | ||
− | | die | + | | die size = 36mm² |
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| word size = 64 bit | | word size = 64 bit | ||
| core count = 25 | | core count = 25 | ||
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| max memory addr = | | max memory addr = | ||
− | + | | electrical = Yes | |
| power = | | power = | ||
| v core = 0.9 V | | v core = 0.9 V | ||
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| socket 0 type = QFP | | socket 0 type = QFP | ||
}} | }} | ||
− | '''Piton''' is a {{arch|64}} [[many-core microprocessor]] developed by [[Princeton]]'s Parallel Computing Group and announced in August of 2016. The [[massively parallel processor array|MPPA]] chip contains 25 modified [[OpenSPARC T1]] cores (an implementation of {{sparc|V9|SPARC V9}}). The chip, which was manufactured on [[IBM]]'s [[32 nm|32 nm SOI process]], operates at 1 GHz. The chip was presented | + | '''Piton''' is a {{arch|64}} [[many-core microprocessor]] developed by [[Princeton]]'s Parallel Computing Group and announced in August of 2016. The [[massively parallel processor array|MPPA]] chip contains 25 modified [[OpenSPARC T1]] cores (an implementation of {{sparc|V9|SPARC V9}}). The chip, which was manufactured on [[IBM]]'s [[32 nm|32 nm SOI process]], operates at 1 GHz. The chip was presented On August 32 2016 at the [[Hot Chips]] 28. |
== Architecture == | == Architecture == | ||
− | The chip is designed as a [[massively parallel processor array]], with 25 cores ("tiles") arranged as a | + | The chip is designed as a [[massively parallel processor array]], with 25 cores ("tiles") arranged as a grid 5 by 5. Each core is a modified [[OpenSPARC T1]] which implements {{sparc|V9|SPARC V9}} capable of booting a standard [[operating system|OS]]. Piton implements a 64-bit [[network on chip]] (NoC) interconnect made of 3 physical networks operating at 1 cycle/hop latency. |
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=== Tiles === | === Tiles === | ||
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|l1i desc= | |l1i desc= | ||
|l1i extra= | |l1i extra= | ||
− | |l1d cache=200 | + | |l1d cache=200 KB |
− | |l1d break=25x8 | + | |l1d break=25x8 KB |
|l1d desc=4-way set associative | |l1d desc=4-way set associative | ||
|l1d extra=(write-back, per tile) | |l1d extra=(write-back, per tile) | ||
− | |l2 cache=1. | + | |l2 cache=1.6 MB |
− | |l2 break=25x64 | + | |l2 break=25x64 KB |
|l2 desc=4-way set associative | |l2 desc=4-way set associative | ||
|l2 extra=(per tile) | |l2 extra=(per tile) | ||
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|l3 extra= | |l3 extra= | ||
}} | }} | ||
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+ | [[File:piton layout.svg|450px]] | ||
== Network On-chip (NoC) == | == Network On-chip (NoC) == | ||
− | Piton implements 3 physical | + | Piton implements 3 physical [networks on chip]] (NoC) that provide all the communication between the [[#tiles|tiles]], deliver I/O and memory traffic, and pass inter-core [[interrupt]]s. Piton implements 3 physical neworks - each consisting of two 64-bit uni-directional links (one in each direction). Packets routing implements [[dimension-order routing]]. Each packet reserves 29 bits for core address, allowing a theoretical network size 500 million core. The three NoCs have descending priorities - i.e. NoC3 has the highest priority, followed by NoC2, followed by NoC1 with the lowest priority. |
== Documents == | == Documents == | ||
− | * | + | * Balkind J, McKeown M, Fu Y, Nguyen T, Zhou Y, Lavrov A, Shahrad M, Fuchs A, Payne S, Liang X, Matl M. [https://parallel.princeton.edu/papers/openpiton-asplos16.pdf OpenPiton: An open source manycore research framework]. In Proceedings of the Twenty-First International Conference on Architectural Support for Programming Languages and Operating Systems 2016 Mar 25 (pp. 217-232). ACM. |
− | * | + | * OpenPit [http://parallel.princeton.edu/openpiton/docs/micro_arch.pdf OpenPiton Microarchitecture Specification] |
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== External links == | == External links == | ||
* [http://parallel.princeton.edu/piton/ Piton] | * [http://parallel.princeton.edu/piton/ Piton] | ||
* [http://www.openpiton.org Open Piton] | * [http://www.openpiton.org Open Piton] | ||
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Facts about "Piton - Princeton"
base frequency | 1,000 MHz (1 GHz, 1,000,000 kHz) + |
bus rate | 2,800 MT/s (2.8 GT/s, 2,800,000 kT/s) + |
bus speed | 350 MHz (0.35 GHz, 350,000 kHz) + |
clock multiplier | 2.85 + |
core count | 25 + |
core voltage | 0.9 V (9 dV, 90 cV, 900 mV) + |
designer | Princeton + |
die area | 36 mm² (0.0558 in², 0.36 cm², 36,000,000 µm²) + |
die length | 6 mm (0.6 cm, 0.236 in, 6,000 µm) + |
die width | 6 mm (0.6 cm, 0.236 in, 6,000 µm) + |
first announced | August 23, 2016 + |
full page name | princeton/piton + |
instance of | microprocessor + |
l1d$ description | 4-way set associative + |
l1d$ size | 200 KiB (204,800 B, 0.195 MiB) + |
l2$ description | 4-way set associative + |
l2$ size | 1.5 MiB (1,536 KiB, 1,572,864 B, 0.00146 GiB) + |
ldate | August 23, 2016 + |
main image | + |
main image caption | Piton face + |
manufacturer | IBM + |
market segment | Server + |
max cpu count | 20,000 + |
name | Piton + |
process | 32 nm (0.032 μm, 3.2e-5 mm) + |
smp max ways | 20,000 + |
technology | CMOS + |
thread count | 50 + |
transistor count | 460,000,000 + |
word size | 64 bit (8 octets, 16 nibbles) + |