Summation based benchmark for calculators
|
08-26-2018, 07:44 PM
Post: #121
|
|||
|
|||
RE: Summation based benchmark for calculators
Planning to do just that. I should get my Prime G2 on Tuesday or Wednesday.
|
|||
08-26-2018, 10:15 PM
Post: #122
|
|||
|
|||
RE: Summation based benchmark for calculators
Casio fx-4000P
n=1000 t~388s Result=1395.346288 I used this Dsz loop program which prompts for the number of iterations. The stopwatch was started when the number of iterations was entered at the prompt, '?': Code: Rad : ? → A : 0 : Lbl 1 : Ans + ∛ e sin tan⁻¹ A : Dsz A : Goto 1 — Ian Abbott |
|||
08-28-2018, 07:51 PM
Post: #123
|
|||
|
|||
RE: Summation based benchmark for calculators
Updated until post #122. If someone finds missing results, please report them!
Also some versioning is here: http://www.wiki4hp.com/doku.php?id=bench...g_exp_root Wikis are great, Contribute :) |
|||
08-28-2018, 08:21 PM
Post: #124
|
|||
|
|||
RE: Summation based benchmark for calculators
Results from a Casio fx-720P with this program:
Code: 10 T=0 ~4 sec. to produce 13.7118350167 for X=1 to 10 ~43 sec. to produce 139.297187038 for X=1 to 100 |
|||
08-28-2018, 08:21 PM
(This post was last modified: 08-29-2018 07:45 AM by StephenG1CMZ.)
Post: #125
|
|||
|
|||
RE: Summation based benchmark for calculators
I have written a Savage benchmark for the Prime, which provides results for both approximate and exact (CAS) mode.
But I use an Android emulator and have no hardware to time results on. http://www.hpmuseum.org/forum/thread-9626.html Update: Anders has reported timings for Prime C and Prime G2 here: http://www.hpmuseum.org/forum/thread-11202-page-3.html Stephen Lewkowicz (G1CMZ) https://my.numworks.com/python/steveg1cmz |
|||
08-28-2018, 09:28 PM
(This post was last modified: 08-28-2018 09:52 PM by ijabbott.)
Post: #126
|
|||
|
|||
RE: Summation based benchmark for calculators
HP-27S
n=1000 t∼120s Result=1395.3462877 Code: BENCH=Σ(X:1:1000:1:EXP(SIN(ATAN(X)))^.333333333333) Surprisingly fast compared to HP-42S. (I originally used 'INV(3)' instead of '.333333333333', but it was slower due to the extra function overhead. The calculator has no cube root or nth root function.) — Ian Abbott |
|||
08-29-2018, 04:19 AM
(This post was last modified: 08-29-2018 04:22 AM by Tim Wessman.)
Post: #127
|
|||
|
|||
RE: Summation based benchmark for calculators
PrimeG2: ~7.22_s with run of 10 average.
SUM function, 100000 TW Although I work for HP, the views and opinions I post here are my own. |
|||
08-29-2018, 06:17 AM
(This post was last modified: 08-29-2018 06:18 AM by pier4r.)
Post: #128
|
|||
|
|||
RE: Summation based benchmark for calculators
Wow, before it was 19 seconds . Is the g2 version optimized or is it clocked at 800+ MHz?
The thingy starts to be golden in term of power expressiveness of HP ppl. It is faster than an iPhone and that's not trivial to achieve. I still have to put the results on the first page though. Wikis are great, Contribute :) |
|||
08-31-2018, 07:53 PM
Post: #129
|
|||
|
|||
RE: Summation based benchmark for calculators
Updated up to post #127
Wikis are great, Contribute :) |
|||
09-05-2018, 05:36 AM
(This post was last modified: 09-05-2018 11:52 AM by Gene.)
Post: #130
|
|||
|
|||
RE: Summation based benchmark for calculators
Casio fx-92+ Spéciale Collège
n=1000 t~163 s. result=1395,346288 0->A 0->B Répétez jusqu'a A=1000 A+1->A B+3V(e^(sin(Arcttan(A))))->B <- Afficher résult B Gene: Translation below from Google. Casio fx-92 + Special College n = 1000 t ~ 163 s. result = 1395.346288 0-> A 0-> B Repeat until A = 1000 A + 1> A B + 3V (e ^ (sin (Arcttan (A)))) -> B <- Show result B |
|||
09-05-2018, 10:34 AM
Post: #131
|
|||
|
|||
RE: Summation based benchmark for calculators
Regarding the original summation test, I decided to feed it through my copy of x48-0.6.4. I got some slightly strange results, which seem to be dependent upon the machine that x48's running on, so I'm interested in knowing if anyone's done the test on a real 48SX, as I haven't seen one in pier4r's list of results. My program's below, but it's pretty much the sum from 1 to n for the original formula.
Quote:%And yes, you'll have to type in that sum symbol yourself (Right-Shift-U for the 48SX/GX) Oh, and I finally managed to find a PDF manual for the SX; as most of you know, there are quite a few differences between the SX and GX and they were doing my head in. I still don't know how to do certain things I take for granted on my 50G, but things are considerably more spartan on the SX. (Post 274) Regards, BrickViking HP-50g |Casio fx-9750G+ |Casio fx-9750GII (SH4a) |
|||
09-05-2018, 10:36 AM
Post: #132
|
|||
|
|||
RE: Summation based benchmark for calculators
also anyone else with the prime G2 ?
Wikis are great, Contribute :) |
|||
09-05-2018, 10:41 AM
(This post was last modified: 09-05-2018 10:54 AM by grsbanks.)
Post: #133
|
|||
|
|||
RE: Summation based benchmark for calculators | |||
09-05-2018, 12:23 PM
Post: #134
|
|||
|
|||
RE: Summation based benchmark for calculators
Casio fx-92+ Spéciale Collège
n=1000 t~163s Result=1395.346288 With "Algorithmique" feature[/php] |
|||
09-05-2018, 02:26 PM
Post: #135
|
|||
|
|||
RE: Summation based benchmark for calculators
(09-05-2018 10:34 AM)brickviking Wrote: Regarding the original summation test, I decided to feed it through my copy of x48-0.6.4. I got some slightly strange results, which seem to be dependent upon the machine that x48's running on, so I'm interested in knowing if anyone's done the test on a real 48SX, as I haven't seen one in pier4r's list of results. My program's below, but it's pretty much the sum from 1 to n for the original formula. Using a slightly modified program (since I have TEVAL already built) my results for a real 48SX are: n=1000 t=95.5s Result=1395.3462877 --Bob Prosperi |
|||
09-06-2018, 09:30 PM
Post: #136
|
|||
|
|||
RE: Summation based benchmark for calculators
a different result for NUMWORKS (Python script)
Someone posted that 100000 iterations would take 84sec. My script does it within 68sec. Perhaps I made a mistake? I'm not at all experienced with Python. So here is the short script Code:
Result is 139560.97614110521 Günter |
|||
09-06-2018, 09:46 PM
Post: #137
|
|||
|
|||
RE: Summation based benchmark for calculators
(09-06-2018 09:30 PM)Guenter Schink Wrote: a different result for NUMWORKS (Python script) As was pointed out to me over in this thread, you can significantly speed up Micro Python code by doing the work inside a function. This version runs in about 57 seconds on my Casio fx-CG50, producing 139560.9761410521: Code: from math import * |
|||
09-06-2018, 10:12 PM
(This post was last modified: 09-06-2018 10:13 PM by Guenter Schink.)
Post: #138
|
|||
|
|||
RE: Summation based benchmark for calculators
(09-06-2018 09:46 PM)Dave Britten Wrote:(09-06-2018 09:30 PM)Guenter Schink Wrote: a different result for NUMWORKS (Python script) Thanks Dave, I applied the changes as above, making it a function. The difference however is marginal, 65sec instead of 68. Seems to depend on the implementation of Python. But it's an improvement still. Regards, Günter edit: typo |
|||
09-06-2018, 10:23 PM
Post: #139
|
|||
|
|||
RE: Summation based benchmark for calculators
(09-06-2018 09:46 PM)Dave Britten Wrote: Hi, Dave Britten Does Micro Python support default arguments, like regular Python ? If Yes, changing def RunTest() to def RunTest(pow=pow, exp=exp, sin=sin, atan=atan) should be faster. Now, all variables are locals (pow, exp, sin, atan are variables too) |
|||
09-06-2018, 11:28 PM
(This post was last modified: 09-06-2018 11:37 PM by ijabbott.)
Post: #140
|
|||
|
|||
RE: Summation based benchmark for calculators
(09-06-2018 10:23 PM)Albert Chan Wrote: Does Micro Python support default arguments, like regular Python ? You could assign those as variables within RunTest() itself. Code: import math Finishes in ~53 seconds on fx-CG50. — Ian Abbott |
|||
« Next Oldest | Next Newest »
|
User(s) browsing this thread: 7 Guest(s)