From 82a44e0d64afb8818ea98d68dc08108885d503c2 Mon Sep 17 00:00:00 2001
From: Adrian Kummerlaender
Date: Mon, 21 Oct 2019 18:42:24 +0200
Subject: Pull in basics from symlbm_playground

It's time to extract the generator-part of my GPU LBM playground and turn it
into a nice reusable library. The goal is to produce a framework that can be
used to generate collision and streaming programs from symbolic descriptions.

i.e. it should be possible to select a LB model, the desired boundary
conditions as well as a data structure / streaming model and use this
information to automatically generate matching OpenCL / CUDA / C++
programs.
---
 boltzgen/kernel/generator.py         |  25 +++++++++
 boltzgen/kernel/template/kernel.mako | 104 +++++++++++++++++++++++++++++++++++
 2 files changed, 129 insertions(+)
 create mode 100644 boltzgen/kernel/generator.py
 create mode 100644 boltzgen/kernel/template/kernel.mako

(limited to 'boltzgen/kernel')

diff --git a/boltzgen/kernel/generator.py b/boltzgen/kernel/generator.py
new file mode 100644
index 0000000..bd1bb86
--- /dev/null
+++ b/boltzgen/kernel/generator.py
@@ -0,0 +1,25 @@
+import sympy
+
+from mako.template import Template
+from pathlib import Path
+
+def source(descriptor, moments, collide, boundary_src, float_type, geometry):
+    return Template(filename = str(Path(__file__).parent/'template/kernel.mako')).render(
+        descriptor = descriptor,
+        geometry   = geometry,
+
+        moments_subexpr    = moments[0],
+        moments_assignment = moments[1],
+        collide_subexpr    = collide[0],
+        collide_assignment = collide[1],
+
+        float_type = float_type,
+
+        boundary_src = Template(boundary_src).render(
+            descriptor = descriptor,
+            geometry   = geometry,
+            float_type = float_type
+        ),
+
+        ccode = sympy.ccode
+    )
diff --git a/boltzgen/kernel/template/kernel.mako b/boltzgen/kernel/template/kernel.mako
new file mode 100644
index 0000000..5ddf64c
--- /dev/null
+++ b/boltzgen/kernel/template/kernel.mako
@@ -0,0 +1,104 @@
+% if float_type == 'double':
+#if defined(cl_khr_fp64)
+#pragma OPENCL EXTENSION cl_khr_fp64 : enable
+#elif defined(cl_amd_fp64)
+#pragma OPENCL EXTENSION cl_amd_fp64 : enable
+#endif
+% endif
+
+<%
+def gid():
+    return {
+        2: 'get_global_id(1)*%d + get_global_id(0)' % geometry.size_x,
+        3: 'get_global_id(2)*%d + get_global_id(1)*%d + get_global_id(0)' % (geometry.size_x*geometry.size_y, geometry.size_x)
+    }.get(descriptor.d)
+
+def pop_offset(i):
+    return i * geometry.volume
+%>
+
+__kernel void equilibrilize(__global ${float_type}* f_next,
+                            __global ${float_type}* f_prev)
+{
+    const unsigned int gid = ${gid()};
+
+    __global ${float_type}* preshifted_f_next = f_next + gid;
+    __global ${float_type}* preshifted_f_prev = f_prev + gid;
+
+% for i, w_i in enumerate(descriptor.w):
+    preshifted_f_next[${pop_offset(i)}] = ${w_i}.f;
+    preshifted_f_prev[${pop_offset(i)}] = ${w_i}.f;
+% endfor
+}
+
+<%
+def neighbor_offset(c_i):
+    return {
+        2: lambda:                                          c_i[1]*geometry.size_x + c_i[0],
+        3: lambda: c_i[2]*geometry.size_x*geometry.size_y + c_i[1]*geometry.size_x + c_i[0]
+    }.get(descriptor.d)()
+
+%>
+
+__kernel void collide_and_stream(__global ${float_type}* f_next,
+                                 __global ${float_type}* f_prev,
+                                 __global int* material,
+                                 unsigned int time)
+{
+    const unsigned int gid = ${gid()};
+
+    const int m = material[gid];
+
+    if ( m == 0 ) {
+        return;
+    }
+
+    __global ${float_type}* preshifted_f_next = f_next + gid;
+    __global ${float_type}* preshifted_f_prev = f_prev + gid;
+
+% for i, c_i in enumerate(descriptor.c):
+    const ${float_type} f_curr_${i} = preshifted_f_prev[${pop_offset(i) + neighbor_offset(-c_i)}];
+% endfor
+
+% for i, expr in enumerate(moments_subexpr):
+    const ${float_type} ${expr[0]} = ${ccode(expr[1])};
+% endfor
+
+% for i, expr in enumerate(moments_assignment):
+    ${float_type} ${ccode(expr)}
+% endfor
+
+  ${boundary_src}
+
+% for i, expr in enumerate(collide_subexpr):
+    const ${float_type} ${expr[0]} = ${ccode(expr[1])};
+% endfor
+
+% for i, expr in enumerate(collide_assignment):
+    const ${float_type} ${ccode(expr)}
+% endfor
+
+% for i in range(0,descriptor.q):
+    preshifted_f_next[${pop_offset(i)}] = f_next_${i};
+% endfor
+}
+
+__kernel void collect_moments(__global ${float_type}* f,
+                              __global ${float_type}* moments)
+{
+    const unsigned int gid = ${gid()};
+
+    __global ${float_type}* preshifted_f = f + gid;
+
+% for i in range(0,descriptor.q):
+    const ${float_type} f_curr_${i} = preshifted_f[${pop_offset(i)}];
+% endfor
+
+% for i, expr in enumerate(moments_subexpr):
+    const ${float_type} ${expr[0]} = ${ccode(expr[1])};
+% endfor
+
+% for i, expr in enumerate(moments_assignment):
+    moments[${pop_offset(i)} + gid] = ${ccode(expr.rhs)};
+% endfor
+}
-- 
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