\end{itemize}
}
-\begin{frame}[fragile]
-\frametitle{ADD pseudocode (or trap, or actual hardware loop)}
-
-\begin{semiverbatim}
-function op_add(rd, rs1, rs2, predr) # add not VADD!
- int i, id=0, irs1=0, irs2=0;
- for (i=0; i < MIN(VL, vectorlen[rd]); i++)
- if (ireg[predr] & 1<<i) # predication uses intregs
- ireg[rd+id] <= ireg[rs1+irs1] + ireg[rs2+irs2];
- if (reg_is_vectorised[rd]) \{ id += 1; \}
- if (reg_is_vectorised[rs1]) \{ irs1 += 1; \}
- if (reg_is_vectorised[rs2]) \{ irs2 += 1; \}
-\end{semiverbatim}
-
- \begin{itemize}
- \item SIMD slightly more complex (case above is elwidth = default)
- \item Scalar-scalar and scalar-vector and vector-vector now all in one
- \item OoO may choose to push ADDs into instr. queue (v. busy!)
- \end{itemize}
-\end{frame}
-
-\begin{frame}[fragile]
-\frametitle{Predication-Branch (or trap, or actual hardware loop)}
-
-\begin{semiverbatim}
-s1 = vectorlen[src1] > 1;
-s2 = vectorlen[src2] > 1;
-for (int i = 0; i < VL; ++i)
- preg[rs3] |= 1 << cmp(s1 ? reg[src1+i] : reg[src1],
- s2 ? reg[src2+i] : reg[src2]);
-\end{semiverbatim}
-
- \begin{itemize}
- \item SIMD slightly more complex (case above is elwidth = default)
- \item If s1 and s2 both scalars, Standard branch occurs
- \item Predication stored in integer regfile as a bitfield
- \item x
- \end{itemize}
-\end{frame}
-
-\begin{frame}[fragile]
-\frametitle{LD/LD.S/LD.X (or trap, or actual hardware loop)}
-
-\begin{semiverbatim}
-if (unit-strided) stride = elsize;
-else stride = areg[as2]; // constant-strided
-for (int i = 0; i < VL; ++i)
- if (preg_enabled[rd] && ([!]preg[rd] & 1<<i))
- for (int j = 0; j < seglen+1; j++)
- if (vectorised[rs2]) offs = vreg[rs2][i]
- else offs = i*(seglen+1)*stride;
- vreg[rd+j][i] = mem[sreg[base] + offs + j*stride]
-\end{semiverbatim}
-
- \begin{itemize}
- \item Again: SIMD slightly more complex
- \item rs2 vectorised taken to implicitly indicate LD.X
- \end{itemize}
-\end{frame}
\frame{\frametitle{How are SIMD Instructions Vectorised?}
}
+\begin{frame}[fragile]
+\frametitle{ADD pseudocode (or trap, or actual hardware loop)}
+
+\begin{semiverbatim}
+function op_add(rd, rs1, rs2, predr) # add not VADD!
+ int i, id=0, irs1=0, irs2=0;
+ for (i=0; i < MIN(VL, vectorlen[rd]); i++)
+ if (ireg[predr] & 1<<i) # predication uses intregs
+ ireg[rd+id] <= ireg[rs1+irs1] + ireg[rs2+irs2];
+ if (reg_is_vectorised[rd]) \{ id += 1; \}
+ if (reg_is_vectorised[rs1]) \{ irs1 += 1; \}
+ if (reg_is_vectorised[rs2]) \{ irs2 += 1; \}
+\end{semiverbatim}
+
+ \begin{itemize}
+ \item SIMD slightly more complex (case above is elwidth = default)
+ \item Scalar-scalar and scalar-vector and vector-vector now all in one
+ \item OoO may choose to push ADDs into instr. queue (v. busy!)
+ \end{itemize}
+\end{frame}
+
+\begin{frame}[fragile]
+\frametitle{Predication-Branch (or trap, or actual hardware loop)}
+
+\begin{semiverbatim}
+s1 = vectorlen[src1] > 1;
+s2 = vectorlen[src2] > 1;
+for (int i = 0; i < VL; ++i)
+ preg[rs3] |= 1 << cmp(s1 ? reg[src1+i] : reg[src1],
+ s2 ? reg[src2+i] : reg[src2]);
+\end{semiverbatim}
+
+ \begin{itemize}
+ \item SIMD slightly more complex (case above is elwidth = default)
+ \item If s1 and s2 both scalars, Standard branch occurs
+ \item Predication stored in integer regfile as a bitfield
+ \item x
+ \end{itemize}
+\end{frame}
+
+\begin{frame}[fragile]
+\frametitle{LD/LD.S/LD.X (or trap, or actual hardware loop)}
+
+\begin{semiverbatim}
+if (unit-strided) stride = elsize;
+else stride = areg[as2]; // constant-strided
+for (int i = 0; i < VL; ++i)
+ if (preg_enabled[rd] && ([!]preg[rd] & 1<<i))
+ for (int j = 0; j < seglen+1; j++)
+ if (vectorised[rs2]) offs = vreg[rs2][i]
+ else offs = i*(seglen+1)*stride;
+ vreg[rd+j][i] = mem[sreg[base] + offs + j*stride]
+\end{semiverbatim}
+
+ \begin{itemize}
+ \item Again: SIMD slightly more complex
+ \item rs2 vectorised taken to implicitly indicate LD.X
+ \end{itemize}
+\end{frame}
+
+
\frame{\frametitle{slide}
\begin{itemize}
projects / libreriscv.git / commitdiff