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Add your row to the table below, following the examples already there. LCC refers to the largest connected components. In columns 4 - 6 enter the averages (= total / number of queries) for the execution time of Dijkstra's algorithm (__in seconds, with exactly two digits after the fraction point__), number of nodes settled, and cost of the shortest path (__in minutes + seconds__). If possible, provide the figures for columns 2 - 6 for both Saarland and !BaWü (separately). Last two columns as usual, see the [[EfficientRoutePlanningSS2012/ReadOsmResults|result table for Exercise Sheet 1]]. ||'''Name''' ||'''#nodes LCC''' ||'''#arcs LCC''' ||'''av. query time'''||'''av. #settled nodes'''||'''av. SP cost'''||'''Processor / RAM''' ||'''Language''' || || Example ||1,111,111 / 11,111,111 ||1,111,111 / 11,111,111||1.11s / 11.11s || 111,111 / 1,111,111|| 11m01s / 111m11s ||Intel X5560 @ 2.8Ghz / 96 GB || C++|| |
Add your row to the table below, following the examples already there. LCC refers to the largest connected components. In columns 4 - 6 enter the averages (= total / number of queries) for the execution time of Dijkstra's algorithm (__in seconds, with exactly two digits after the fraction point__), number of nodes settled, and cost of the shortest path (__in minutes + seconds__). If possible, provide the figures for columns 2 - 6 for both Saarland and Ba-Wü (Saarland / Ba-Wü). Last two columns as usual, see the [[EfficientRoutePlanningSS2012/ReadOsmResults|result table for Exercise Sheet 1]]. ||'''Name''' ||'''#nodes LCC''' ||'''#arcs LCC''' ||'''av. query time''' ||'''av. #settled nodes''' ||'''av. SP cost''' ||'''Processor / RAM''' ||'''Language''' || ||Example ||1,111,111 / 11,111,111 ||1,111,111 / 11,111,111 ||1.11s / 11.11s ||111,111 / 1,111,111 ||11m01s / 111m11s ||Intel X5560 @ 2.8Ghz / 96 GB ||C++ || ||SE KF ||213,567 / 2,458,230 ||225,506 / 2,613,338 ||0.03s / 0.54s ||111,639 / 1,210,910 ||28m46s / 88m15s ||Intel P8600 @ 2.4Ghz / 4 GB ||C++ || ||Jens S ||213,567 / 2,458,230 ||225,506 / 2,613,338 ||0.05s / 0.92s ||100,854 / 1,231,154 ||2006m31s / 6830m04s (möööp.TODO!) ||AMD X2 250 @ 3.0Ghz / 4GB ||C++ || ||viktor ||213,567 / 2,458,230 ||225,506 / 2,613,338 ||0.15s / 58.44s ||111,607 / 1,301,940 ||22m49s / 80m45s ||Intel T9300 @ 2.5GHz / 4 GB ||Java || ||niklas ||213,567 / 2,458,230 ||225,506 / 2,613,338 ||0.07s / 0.90s ||113,016 / 1,140,220 ||24m02s / 77m17s ||Intel 2410M @ 2.3GHz / 4 GB ||C++ || ||Stefan W ||213,567 / 2,458,230 ||225,506 / 2,613,338 ||0.86s / 48.02s ||118,024 / 1,245,194 ||24m12s / 80m18s ||Intel 2670QM @ 2.2GHz / 4 GB ||Java || ||K.R||213,567 / TODO ||225,506 / TODO ||0.17s / TODO||111,055 / TODO||22m36s / TODO ||Intel M430 @ 2.3Ghz / 4 GB||Java|| |
Results for Exercise Sheet 2 (Dijkstra results)
Add your row to the table below, following the examples already there. LCC refers to the largest connected components. In columns 4 - 6 enter the averages (= total / number of queries) for the execution time of Dijkstra's algorithm (in seconds, with exactly two digits after the fraction point), number of nodes settled, and cost of the shortest path (in minutes + seconds). If possible, provide the figures for columns 2 - 6 for both Saarland and Ba-Wü (Saarland / Ba-Wü). Last two columns as usual, see the result table for Exercise Sheet 1.
Name |
#nodes LCC |
#arcs LCC |
av. query time |
av. #settled nodes |
av. SP cost |
Processor / RAM |
Language |
Example |
1,111,111 / 11,111,111 |
1,111,111 / 11,111,111 |
1.11s / 11.11s |
111,111 / 1,111,111 |
11m01s / 111m11s |
Intel X5560 @ 2.8Ghz / 96 GB |
C++ |
SE KF |
213,567 / 2,458,230 |
225,506 / 2,613,338 |
0.03s / 0.54s |
111,639 / 1,210,910 |
28m46s / 88m15s |
Intel P8600 @ 2.4Ghz / 4 GB |
C++ |
Jens S |
213,567 / 2,458,230 |
225,506 / 2,613,338 |
0.05s / 0.92s |
100,854 / 1,231,154 |
2006m31s / 6830m04s (möööp.TODO!) |
AMD X2 250 @ 3.0Ghz / 4GB |
C++ |
viktor |
213,567 / 2,458,230 |
225,506 / 2,613,338 |
0.15s / 58.44s |
111,607 / 1,301,940 |
22m49s / 80m45s |
Intel T9300 @ 2.5GHz / 4 GB |
Java |
niklas |
213,567 / 2,458,230 |
225,506 / 2,613,338 |
0.07s / 0.90s |
113,016 / 1,140,220 |
24m02s / 77m17s |
Intel 2410M @ 2.3GHz / 4 GB |
C++ |
Stefan W |
213,567 / 2,458,230 |
225,506 / 2,613,338 |
0.86s / 48.02s |
118,024 / 1,245,194 |
24m12s / 80m18s |
Intel 2670QM @ 2.2GHz / 4 GB |
Java |
K.R |
213,567 / TODO |
225,506 / TODO |
0.17s / TODO |
111,055 / TODO |
22m36s / TODO |
Intel M430 @ 2.3Ghz / 4 GB |
Java |