update description

diff --git a/markdown/pre-launch.md b/markdown/pre-launch.md
index 64cab9d19b85ecc68cabf5e86fa9b4195f599020..e429b63809c31e2623c26ea8c9daa03c27a89015 100644 (file)
--- a/markdown/pre-launch.md
+++ b/markdown/pre-launch.md
@@ -1,4 +1,5 @@
-The Libre RISC-V M-Class is a RISC-V chip that is libre-licensed to the
+Libre-SOC is to be an augmented POWER ISA compliant chip that is
+libre-licensed to the
 bedrock. It is a low-power, mobile-class, 64-bit Quad-Core SoC at a
 minimum 800mhz clock rate, suitable for tablet, netbook, and industrial
 embedded systems. Full source code and files are available not only
@@ -7,16 +8,15 @@ its peripherals and its 3D GPU and VPU.
 
 {kazan-logo}
 
-Onboard the Libre RISC-V M-Class is the
+Onboard Libre-SOC is the
 [Kazan](https://salsa.debian.org/Kazan-team/kazan) GPU, a
 libre-licensed, software-rendered
 [Vulkan](https://www.khronos.org/vulkan/) Driver written in
 Rust that uses LLVM for code generation.  Kazan will use optimised 3D
-instructions specifically designed for and added to the Libre RISC-V M-Class
-SoC, yet Kazan itself may still be used (unoptimised) on other hardware.
+instructions specifically designed for and added to Libre-SOC, yet
+Kazan itself may still be used (unoptimised) on other hardware.
 
-The performance target for Kazan on the Libre RISCV SoC is a very
+The performance target for Kazan on Libre-SOC is a very
 modest mobile-class level (1280 x 720 25 fps, 100 Mpixels/sec, 30
 Mtriangles/sec, 5-6 GFLOPs), whilst the power budget is very tight
-(under 2.5 watts in a 28 nm process).  With RISC-V being 40% more
-power efficient than x86 or ARM, this is very reasonably achievable.
+(under 2.5 watts in a 28 nm process).