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-rw-r--r--graphics/embree/README26
1 files changed, 13 insertions, 13 deletions
diff --git a/graphics/embree/README b/graphics/embree/README
index 85e4ce2ad7730..f109af6421a45 100644
--- a/graphics/embree/README
+++ b/graphics/embree/README
@@ -12,25 +12,25 @@ We recommend using Intel® Embree through its API to get the highest
benefit from future improvements. Intel® Embree is released as Open
Source under the Apache 2.0 license.
-Intel® Embree supports applications written with the Intel® SPMD Program
-Compiler (ISPC, https://ispc.github.io/) by also providing an ISPC
-interface to the core ray tracing algorithms. This makes it possible to
-write a renderer in ISPC that automatically vectorizes and leverages
-SSE, AVX, AVX2, and AVX-512 instructions. ISPC also supports runtime
-code selection, thus ISPC will select the best code path for your
-application.
+Intel® Embree supports applications written with the Intel® SPMD
+Program Compiler (ISPC, https://ispc.github.io/) by also providing
+an ISPC interface to the core ray tracing algorithms. This makes it
+possible to write a renderer in ISPC that automatically vectorizes and
+leverages SSE, AVX, AVX2, and AVX-512 instructions. ISPC also supports
+runtime code selection, thus ISPC will select the best code path for
+your application.
Intel® Embree contains algorithms optimized for incoherent workloads
(e.g. Monte Carlo ray tracing algorithms) and coherent workloads (e.g.
primary visibility and hard shadow rays).
The single-ray traversal kernels of Intel® Embree provide high
-performance for incoherent workloads and are very easy to integrate into
-existing rendering applications. Using the stream kernels, even higher
-performance for incoherent rays is possible, but integration might
-require significant code changes to the application to use the stream
-paradigm. In general for coherent workloads, the stream mode with
-coherent flag set gives the best performance.
+performance for incoherent workloads and are very easy to integrate
+into existing rendering applications. Using the stream kernels, even
+higher performance for incoherent rays is possible, but integration
+might require significant code changes to the application to use the
+stream paradigm. In general for coherent workloads, the stream mode
+with coherent flag set gives the best performance.
Intel® Embree also supports dynamic scenes by implementing
high-performance two-level spatial index structure construction