Changes in dam break hydrodynamic modelling practice - Suter et alStephen Flood
Abstract: Today, many organisations rely on hydrodynamic modelling to assess the consequences of dam break failure on downstream populations and infrastructure. The availability of finite volume shock-capturing schemes and flexible mesh schematisations in widely used software platforms imply that dam break modelling projects will be carried out differently in the future: Finite volume based platforms allow widespread application of shock-capturing methods and flexible mesh platforms can represent features in the study area more realistically and are more flexible thanks to varying mesh resolutions. Furthermore, the recent adoption of Graphics Processing Unit (GPU) technology in mainstream scientific and engineering computing will also significantly decrease computation times at relatively low cost.
This paper examines the application of finite volume, flexible mesh and GPU technologies to dam break modelling. One-dimensional (1D) modelling results are compared to those from two-dimensional (2D) finite difference and finite volume approaches. The results demonstrate that there are differences between modelling approaches and that the computational speeds of 2D simulations can be significantly reduced by the use of GPU processors.
Changes in dam break hydrodynamic modelling practice - Suter et alStephen Flood
Abstract: Today, many organisations rely on hydrodynamic modelling to assess the consequences of dam break failure on downstream populations and infrastructure. The availability of finite volume shock-capturing schemes and flexible mesh schematisations in widely used software platforms imply that dam break modelling projects will be carried out differently in the future: Finite volume based platforms allow widespread application of shock-capturing methods and flexible mesh platforms can represent features in the study area more realistically and are more flexible thanks to varying mesh resolutions. Furthermore, the recent adoption of Graphics Processing Unit (GPU) technology in mainstream scientific and engineering computing will also significantly decrease computation times at relatively low cost.
This paper examines the application of finite volume, flexible mesh and GPU technologies to dam break modelling. One-dimensional (1D) modelling results are compared to those from two-dimensional (2D) finite difference and finite volume approaches. The results demonstrate that there are differences between modelling approaches and that the computational speeds of 2D simulations can be significantly reduced by the use of GPU processors.
1. PAGU Realisasi %
1. Terlaksananya pelayanan Peradilan dengan baik 100% 100% 100%
bagi masyarakat. Prosentase perkara tingkat pertama diputus sesuai SOP 95% 90% 90%
Prosentase perkara selesai melalui mediasi sesuai SOP 10% 0% 0%
Prosentase penyelesaian penyitaan sesuai SOP 10% 0% 0%
Prosentase permohonan eksekusi diputus sesuai SOP 100% 70% 70%
100% 100% 100%
2. Terwujudnya tranparansi peradilan. Prosentase salinan putusan tingkat pertama yang dimuat dalam internet sesuai SOP 75% 85% 85%
Prosentase masyarakat yang mencari keadilan yang telah mengunduh n.a n.a n.a
Prosentase publikasi jadwal sidang 100% 100% 100%
Prosentase perkara diterima dan diputus yang dipublikasikan di website 100% 85% 85%
3. Terselenggaranya peradilan cepat dengan tanpa Jumlah putusan perkara prodeo 80% 0% 0%
biaya/biaya ringan Jumlah terlaksananya sidang di tempat sidang jauh (setting Plat) 50% 0% 0%
4. Terciptanya peningkatan SDM Peradilan Prosentase perkara yang tidak naik banding 80% 65% 65%
5. Terselenggaranya fungsi pengawasan yang efektif Prosentase laporan pengaduan yang ditindaklanjuti 85% 0% 0%
6. Terselenggaranya ketertiban administrasi Kepaniteraan Prosentase perkara yang tertib dan tepat waktu untuk banding, kasasi maupun PK 100% 100% 100%
Registrasi perkara pada tingkat pertama 100% 100% 100%
Putusan perkara tingkat pertama 100% 100% 100%
Penyelesaian salinan putusan tingkat pertama 100% 100% 100%
Pendaftaran Badan Hukum 100% 100% 100%
Pemberitahuan putusan kepada para pihak, penuntut umum, polisi dan terdakwa 100% 100% 100%
Pemberitahuan Putusan Banding, Kasasi dan PK 100% 100% 100%
Penyetoran Dana HHK /PNBP ke Kas Negara 100% 100% 100%
Minutasi berkas perkara
100%
100% 100%
Pengarsipan berkas perkara 100% 100% 100%
Realisasi %
Prosentase Permohonan Pendaftaran Badan Hukum yang diproses sesuai SOP
Persentase perkara tingkat pertama yang diterima tepat waktu/sesuai SOP
Program
Anggaran
PENGUKURAN KINERJA TAHUN 2012
PENGADILAN NEGERI SELONG
No. Sasaran Strategis Indikator Kinerja Target