+# Trustable Hardware
- - give mass volume appliance manufacturers an alternative to expensive un-auditable chips.
- - maximize the degree of trust a customer can place in their processor.
+> We believe a computer should be safe to use, and this starts with a
+> safe processor.
-## The Means:
+# The Mission
-provide the customer the **freedom to study, modify, and redistribute** the full SoC source from HDL and boot loader to down to the VLSI.
+- to provide a libre, secure and transparently developed hybrid CPU VPU
+ GPU architecture to the world.
+- to maximize the degree of trust a customer or user can place in
+ products using our processor designs.
+- through significantly reduced product development costs and time to
+ market, incentivise mass volume appliance manufacturers to ensure
+ that end-users of their products enjoy the same level of access to
+ full Board Support Package source code and Reference Designs that
+ they have, including for the processor hardware design.
+- to disincentivise Tivoisation, the deployment of DRM and other lockout
+ techniques that interfere with end-user trust in the products that
+ they legitimately own.
-## The Market:
+To accomplish this we:
+
+- use collaborative techniques
+- operate entirely transparently
+- invite developers and experts around the world to contribute without NDAs
+- invite inventors to contribute relevant patents to patent pools (OIN)
+
+# The Means:
+
+- provide the customer the **freedom to study, modify, and redistribute**
+ the full SoC source, from HDL, through BIOS, boot loader, to drivers and OS.
+- engage in **full transparency** at every level of the development,
+ right from the inception through to delivery of silicon. no exceptions.
+- listen to **constructive input** from world-leading industry experts,
+ engineers and enthusiasts alike, in real-time, without NDAs creating
+ artificial barriers to communication and hampering success.
+
+# The Market:
- chromebooks
- smartphones
- tablets
- industrial boards
- single-board computers (like the Raspberry Pi)
+ - wearables
+ - CV capable flight controller for lightweight drones
- whatever you want
-## The Machine:
+# The Products:
+
+- our first target (Dec 2020): a single-core dual-issue 180nm 64-bit
+ "demo" QFP chip that will also be a saleable product in the "Embedded"
+ space (Arduino, STM32F, Ingenic jz4720).
+- a full quad core SoC: 800mhz, dual issue, 4-wide FP32, Hybrid CPU /
+ GPU / VPU [and later an ML inference core], comparable to the Allwinner
+ 64 in capability.
+- Products based on customer - and client - driven needs and requirements
-a (quad core, 800mhz, dual issue, 4-wide FP32, CPU, GPU, VPU, [and later an ML inference core] ) SOC.