The APIs are flexible and easy-to-use, supporting authentication, user identity, and complex enterprise features like SSO and SCIM provisioning. Learn more →
Openc906 Alternatives
Similar projects and alternatives to openc906
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InfluxDB
Power Real-Time Data Analytics at Scale. Get real-time insights from all types of time series data with InfluxDB. Ingest, query, and analyze billions of data points in real-time with unbounded cardinality.
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WorkOS
The modern identity platform for B2B SaaS. The APIs are flexible and easy-to-use, supporting authentication, user identity, and complex enterprise features like SSO and SCIM provisioning.
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aosp-riscv
Discontinued Patches & Script for AOSP to run on Xuantie RISC-V CPU [Moved to: https://github.com/T-head-Semi/riscv-aosp]
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SaaSHub
SaaSHub - Software Alternatives and Reviews. SaaSHub helps you find the best software and product alternatives
openc906 reviews and mentions
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Milk-V Duo: A $9 RISC-V COMPUTER
Datasheet: https://github.com/milkv-duo/hardware
Reading the datasheet, it looks like there is one C906 cpu with 700 Mhz without the the vector extension and one C906 cpu at 1Ghz with rvv 0.7.1. The C906 design has been opensourced and is available here: https://github.com/T-head-Semi/openc906
The C906 supports rv64gc with optimal rvv 0.7.1 with a vlen of 128, but a 256 wide ALU.
They list H.264/H.265 support, but I don't think it's a standardized extension.
But see my other comment about using the pre ratification vector extension:
- New RISC-V SoCs. Are they private and secure, or just more of the same?
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ARM versus RISC-V
Note that the implementations themselves are often not open source, for example a random person won't be able to get the sources of these SiFive cores anywhere. As of a open-source core from a commercial company, the OpenC906 is an open-source implementation provided by T-Head, but the vector unit is not included in the open source version and thus cannot enabled.
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Core2Duo doesnt have backdoor
Still not free hardware, real chads use XuanTie C906 based MangoPi MQ-PRO!
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Google wants RISC-V to be a “tier-1” Android architecture
Try and see if you can find any stolen code here[0] or here[1].
Cheers.
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RISC-V Pushes into the Mainstream
I wouldn't quite say that's the case. Two of the three full Linux capable RISC-V SoC releases this year are using open source CPU cores. The BL808 and the Allwinner D1 both use T-Head CPU cores that are available on GitHub https://github.com/T-head-Semi/openc906 . The JH7110 in the VisionFive2 and Star 64 does use a closed CPU core however.
- Store access fault when executing AMO instructions in Nezha D1
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Does a truly secure Linux system exist?
For example, let's take the ClockworkPi uConsole. It uses an Allwinner D1 chip as it's main processor which has a seemingly auditable XuanTie C906 which could theoretically be verified if one opened up a few chips.
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Buying RISC-V development board
For an example of what CPU core RTL looks like look no further than: https://github.com/T-head-Semi/openc906
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Packed-SIMD (P) vs Vector (V) extension
For example, for the record, the open source C906 RTL, found here https://github.com/T-head-Semi/openc906 doesn't even have the vector files in there.
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A note from our sponsor - WorkOS
workos.com | 19 Apr 2024
Stats
T-head-Semi/openc906 is an open source project licensed under Apache License 2.0 which is an OSI approved license.
The primary programming language of openc906 is Verilog.