1. High Resolution Global Ocean Model
on Earth Simulator
By Norikazu Nakashiki (CRIEPI)
Yoshikatsu Yoshida (CRIEPI)　　　　 Frank O. Bryan 　 (NCAR)
Richard D. Smith 　(LANL)

2. Earth Simulator High Resolution Global Ocean Model (POP) on ES
Super High Resolution Global Ocean Model
(ocean stand alone)
　Resolution　　 : 10km x 10km x 40 Level (3600x2400x40)
(Pole is shifted on North America)
　Horizontal mixing : Bi-harmonic Mixing　(velocity, temp. sal.）
Vertical mixing : Kpp Mixing
Time step for integration : /day (≒ 6min.)
Earth Simulator
Fine
・Effect of variability
　（Kuroshio, etc）
・Short term
Spatial resolution
Eddy Resolving Model
Direct
Meso-scale Eddy
Spatial scale : O(10km)～ O(100km)
Parameterize
Eddy Permitting Model
Moderate Resolution Global Ocean Model
（climate model：atm.-ocean coupled model）
　Resolution : km x 100km x 40 Level (320x384x40)
　　　　　　　　　　　　　　　 (Pole is shifted on Green Land)
　 Horizontal mixing : An Isotropic Mixing （velocity） 、　
　　　　　　　　　　　　　　　 GM Mixing （temp. sal.）
　 Vertical mixing : Kpp Mixing
　 Time step for integration : 23/day (≒60min.)
Coerce
・Change of
mean characteristics
・Long Period　

3. POP performance on ES (a) wallclock v.s. # of PEs
(b) efficiency v.s. # of PEs
1.64 day/century, 70.2 Gflop/s, at 1 degree (4 nodes)
27.1 day/century, 1.60 Tflop/s, at 0.1 degree (120 nodes)

4. Computed Kuroshio (Annual Mean )
resolution　x1deg
resolution　x0.1deg
resolution　x0.1deg
resolution　x0.1deg

6. Meridional Heat Transport
&
Pacific Intermediate Water

7. Computation on Earth Simulator in FY2003
Computation on Earth Simulator in FY2003
Case
Surface B.C.
Mixing Scheme
Integration
Memo
Horizontal
Vertical
FY 2 2
01c
Monthly Climatology
NCEP( )
Velocity
Bi-harmonic
( am = -0.9e１８ cm２/s )
Tracer (temp. sal.)
( ah = -3.0e１７ cm２/s)　
KPP
20 yr
Basic case for
sensitivity analysis
01d
( am = -2.7e１８ cm２/s )
GM scheme
15 yr
Change
Horizontal mixing 3
01g
Same as 01c
15yr
Weak
SFW Flux restoring
02a
2 yr
w/ 106L
03c
North Atlantic restoring
03g
Anisotropic visc.
Anisotropic GM
horizontal mixing
03i
Change topo.
ETOPO -> SKKU

8. Vertical High Resolution w/ 106 L
40 level vs. 106 level

9. Meridional Section at Eq. Area
W/ 40L
W/ 40L
W/ 106L
W/ 106L

10. Zonal Section near Nansei Islands
Northward Velocity at 26.7N
Northward Velocity at 27.3N
W/ 40L
W/ 106L
W/ 40L
W/ 106L

11. Current & Front around Japan
KR: Kuroshio
KF: Kuroshio Front
KRE: Kuroshio Extension
KCC: Kuroshio Counter Current
OY: Oyashio
OF: Oyashio Front
STCC: Sub-tropical Counter Current
STF: Sub-tropical Front
NEC: North Equatorial Current
TS: Tsushima Current
TG: Tsugaru Current
SY: Soya Current
EK: East Korea Current
LM: Liman Current
W: Warm Eddy
Encyclopedia of Oceanography, Ed. Wadachi

12. Effect of Horizontal Mixing
01c Vel. 　　: Biharmonic
Tracer　: Biharmonic
03g Vel : Anisotropic Visc.
Tracer　: Anisotropic GM
② front,
warm/cold eddy
④steady eddy
① meandering
KE at surface
③1st branch of Tsushima current

13. Effect of Bottom Topography
SKKU
Blue →redused
Red→enhanced
ETOPO
SKKU-ETOPO

14. Kuroshio Japan Sea Volume Transport around Japan (by ETOPO) Izu
SST (℃)
Soya
Volume Transport at Kuroshio (Sv)
Tsushima
Tsugaru
Izu
30-60 Sv　
Kuroshio
Tokara
13 Sv
Izu
Tokara
Year
Japan Sea
Volume Transport in Japan sea (Sv)
Tsushima　2.2Sv
Tsugaru　1.5Sv
Soya　0.7Sv
Year

15. Volume Transport around Japan (by SKKU)
Izu
30-60 Sv　
Izu
Tokara
13 Sv
Tsushima　2.2Sv
Tsushima　
Tsugaru　1.5Sv
Soya　0.7Sv

16. Weak Restoring of Surface Flux
Surface Heat Flux
Surface Fresh Water Flux
Bulk-NCEP
Restoring

17. Global Diagnostics (01g)
branch
Global Diagnostics (01g)

18. Base case GM
Weak SFWF
Aniso GM & visc.

19. Weak SFWF
x1deg
Aniso GM & visc. GM

20. 1st. phase 2nd. phase J “Kyousei” project (ocean part)
FY FY FY FY FY2006
22node yrs/day
IPCC Run
Prediction of
Global Warming
Feb. ?
Sept. ?
20 ? model year
High Res. Global
Ocean Model
(Regional Impact
of Global Warming)
50 ? model year J
High Res.
Atm-Ocean model

21. Regional Impact Study by High Resolution Global Ocean Model
Global prediction (IPCC Run)
CCSM2.0
Boundary Conditions
Ice　ＣＳＩＭｘ１
Regional effect　(Local & Snapshot)
Atm. x1
Flux Coupler
Ice Model
CSIM4 (x0.1)
Land
Data Atmosphere
Air Density
Specific Humidity
Sea Level Pressure
Air Temperature
U Wind, V Wind
Precipitation
Cloud Fraction
Ocean　POP x1
Flux Coupler
(CPL6)
Data Land
Runoff
Ocean Model POP1
(x0.1, 40L)
Vector/parallel optimization will be finished soon.