Neon Light Spaceship Mac OS

Posted on  by
Neon Genesis Evangelion: Girlfriend of Steel 2nd
Developer(s)Gainax Network Systems
Publisher(s)Broccoli
Platform(s)PlayStation 2, Mac OS X, Mac OS, Windows, PlayStation Portable
Release
Genre(s)Visual novel
Mode(s)Single player

Neon Genesis Evangelion: Girlfriend of Steel 2nd (新世紀エヴァンゲリオン鋼鉄のガールフレンド 2nd, Shinseiki Evangerion Kōtetsu no Gārufurendo 2nd, lit. 'Neon Genesis Evangelion Girlfriend of Steel 2nd'), subtitled in English Neon Genesis Evangelion: Iron Maiden 2nd, is a Gainax-produced adventure anime-style video game, and manga based on that game, set in the alternate universe seen in episode 26 of Neon Genesis Evangelion. The player controls Shinji Ikari, the hero of the original Evangelion series, as he navigates his home, school, and social life in a now-peaceful 'Tokyo-3'.

Each character from the original Evangelion makes an appearance but some of their circumstances and personalities have radically changed. Misato Katsuragi is now a popular homeroom teacher, and Ritsuko Akagi is the school nurse (however, these two still have their posts at Nerv from the original storyline). Asuka Langley Soryu is Shinji's childhood friend and neighbor, Kaworu Nagisa is an enigmatic playboy type who has known Shinji for years, and Rei Ayanami is a hyperactive transfer student.

Neon Light Spaceship Mac OS

Although the game's name suggests it is a sequel to the previous Evangelionvisual novelGirlfriend of Steel, the story is unrelated, keeping only the gameplay. The game received a manga adaptation by Fumino Hayashi titled in English Neon Genesis Evangelion: Angelic Days.

Neon Light Spaceship Mac Os Update

The program runs on both OS 9 and OS X. System requirements are fairly moderate – you need a G3 (333 MHz for OS 9, 600 MHz for OS X, OS X 10.7 and newer not supported) and you must have a video card that handles QuickTime RAVE (OS 9) or OpenGL (OS X). Microsoft is piloting Mac OS support for its social service AltspaceVR. The test is “intended to help us better understand the feasibility of expanding AltspaceVR to Mac OS” and you can give.

Gameplay[edit]

The game functions as a visual novel-style 'additional episode'. While this game features official art, backgrounds and music in the style of the original series and full-voice, it is fundamentally different from the first Girlfriend of Steel. The artwork was done by a new team, but the voices were provided by the same voice actors from the original series cast. The game also has dating sim elements and includes three 'dateable' characters (Rei, Asuka, and Kaworu). Reward CG for each character can be uncovered and collected in a CG gallery accessible from the game's main menu.

In spite of its 'Alternate Universe' billing, elements of the original Evangelion make appearances: plugsuits, mentions of Gendo Ikari's research in creating an artificial human being, Ritsuko's past feelings for Gendo and visual and verbal references to Angels and Evangelions. The game is available in Japanese for Mac OS, Mac OS X, Windows and PlayStation 2.

Reception[edit]

The game sold 17,421 copies the week of its release.[1]

References[edit]

  1. ^'ファミ通.com / 集計期間:2005年1月17日~2005年1月23日'. www.famitsu.com. Retrieved 2019-06-26.

Neon Light Spaceship Mac Os 8

External links[edit]

  • (in Japanese)Official Website
  • (in English)IGN: PCPS2
Retrieved from 'https://en.wikipedia.org/w/index.php?title=Neon_Genesis_Evangelion:_Girlfriend_of_Steel_2nd&oldid=1003764289'

Neon Light Spaceship Mac Os X

AstroPulse v7
PlatformVersionCreatedAverage computing
Linux/x867.007 Oct 2014, 21:10:29 UTC20 GigaFLOPS
Linux/x867.04 (sse)7 Oct 2014, 21:10:29 UTC16 GigaFLOPS
Linux/x867.04 (sse2)7 Oct 2014, 21:10:29 UTC21 GigaFLOPS
Windows/x867.007 Oct 2014, 21:10:29 UTC59 GigaFLOPS
Windows/x867.03 (sse)7 Oct 2014, 21:10:29 UTC191 GigaFLOPS
Windows/x867.09 (opencl_ati_100)23 Apr 2015, 18:50:41 UTC126 GigaFLOPS
Windows/x867.09 (opencl_intel_gpu_102)23 Apr 2015, 18:50:41 UTC102 GigaFLOPS
Windows/x867.10 (cuda_opencl_100)23 Apr 2015, 18:50:41 UTC0 GigaFLOPS
Windows/x867.10 (cuda_opencl_cc1)23 Apr 2015, 18:50:41 UTC0 GigaFLOPS
Windows/x867.10 (opencl_nvidia_100)23 Apr 2015, 18:50:41 UTC358 GigaFLOPS
Windows/x867.10 (opencl_nvidia_cc1)23 Apr 2015, 18:50:41 UTC10 GigaFLOPS
Mac OS X/Power PC7.007 Oct 2014, 21:10:29 UTC1 GigaFLOPS
Linux/x86_647.007 Oct 2014, 21:10:29 UTC10 GigaFLOPS
Linux/x86_647.04 (sse2)7 Oct 2014, 21:10:29 UTC130 GigaFLOPS
Linux/x86_647.08 (cuda_opencl_100)21 May 2015, 23:56:05 UTC2 GigaFLOPS
Linux/x86_647.08 (cuda_opencl_cc1)21 May 2015, 23:56:05 UTC1 GigaFLOPS
Linux/x86_647.08 (opencl_ati_100)21 May 2015, 23:56:05 UTC12 GigaFLOPS
Linux/x86_647.08 (opencl_nvidia_100)21 May 2015, 23:56:05 UTC57 GigaFLOPS
Linux/x86_647.08 (opencl_nvidia_cc1)21 May 2015, 23:56:05 UTC4 GigaFLOPS
Windows/x86 running on an AMD x86_64 or Intel EM64T CPU7.03 (sse2)7 Oct 2014, 21:10:29 UTC271 GigaFLOPS
Mac OS X/64-bit Intel7.01 (sse3)7 Oct 2014, 21:10:29 UTC42 GigaFLOPS
Mac OS X/64-bit Intel7.07 (opencl_ati_mac)23 Apr 2015, 18:50:41 UTC189 GigaFLOPS
Mac OS X/64-bit Intel7.07 (opencl_intel_gpu_mac)23 Apr 2015, 18:50:41 UTC35 GigaFLOPS
Mac OS X/64-bit Intel7.07 (opencl_nvidia_mac_old)23 Apr 2015, 18:50:41 UTC35 GigaFLOPS
SETI@home v8
PlatformVersionCreatedAverage computing
Linux/x868.0518 May 2016, 1:10:51 UTC12 GigaFLOPS
Windows/x868.0030 Dec 2015, 21:14:57 UTC133 GigaFLOPS
Windows/x868.00 (cuda23)22 Jan 2016, 0:38:52 UTC1 GigaFLOPS
Windows/x868.00 (cuda32)22 Jan 2016, 0:38:52 UTC12 GigaFLOPS
Windows/x868.00 (cuda42)22 Jan 2016, 0:38:52 UTC43 GigaFLOPS
Windows/x868.00 (cuda50)22 Jan 2016, 0:38:52 UTC47 GigaFLOPS
Windows/x868.20 (opencl_intel_gpu_sah)14 Dec 2016, 0:46:29 UTC97 GigaFLOPS
Windows/x868.22 (opencl_nvidia_SoG)28 Dec 2016, 23:34:07 UTC460 GigaFLOPS
Windows/x868.24 (opencl_ati5_cat132)15 Jan 2020, 17:42:44 UTC14 GigaFLOPS
Windows/x868.24 (opencl_ati5_nocal)15 Jan 2020, 17:42:44 UTC49 GigaFLOPS
Windows/x868.24 (opencl_ati5_sah)15 Jan 2020, 17:42:44 UTC3 GigaFLOPS
Windows/x868.24 (opencl_ati5_SoG)15 Jan 2020, 17:42:44 UTC4 GigaFLOPS
Windows/x868.24 (opencl_ati5_SoG_cat132)15 Jan 2020, 17:42:44 UTC11 GigaFLOPS
Windows/x868.24 (opencl_ati5_SoG_nocal)15 Jan 2020, 17:42:44 UTC50 GigaFLOPS
Windows/x868.24 (opencl_ati_cat132)15 Jan 2020, 17:42:44 UTC7 GigaFLOPS
Windows/x868.24 (opencl_ati_nocal)15 Jan 2020, 17:42:44 UTC37 GigaFLOPS
Windows/x868.24 (opencl_ati_sah)15 Jan 2020, 17:42:44 UTC0 GigaFLOPS
Mac OS X/Power PC8.037 Jan 2016, 19:46:50 UTC0 GigaFLOPS
Mac OS X/Intel8.03 (osx_12)7 Jan 2016, 22:26:19 UTC6 GigaFLOPS
Mac OS X/Intel8.05 (mac_intel32)1 Oct 2018, 20:31:27 UTC15 GigaFLOPS
Linux/x86_648.0030 Dec 2015, 21:14:57 UTC114 GigaFLOPS
Linux/x86_648.01 (cuda60)18 May 2016, 1:10:51 UTC23 GigaFLOPS
Linux/x86_648.22 (opencl_ati5_cat132)5 Jan 2017, 23:13:45 UTC1 GigaFLOPS
Linux/x86_648.22 (opencl_ati5_nocal)5 Jan 2017, 23:13:45 UTC42 GigaFLOPS
Linux/x86_648.22 (opencl_ati5_sah)5 Jan 2017, 23:13:45 UTC0 GigaFLOPS
Linux/x86_648.22 (opencl_ati5_SoG)5 Jan 2017, 23:13:45 UTC2 GigaFLOPS
Linux/x86_648.22 (opencl_ati5_SoG_cat132)5 Jan 2017, 23:13:45 UTC5 GigaFLOPS
Linux/x86_648.22 (opencl_ati5_SoG_nocal)5 Jan 2017, 23:13:45 UTC11 GigaFLOPS
Linux/x86_648.22 (opencl_atiapu_sah)5 Jan 2017, 23:13:45 UTC5 GigaFLOPS
Linux/x86_648.22 (opencl_ati_cat132)5 Jan 2017, 23:13:45 UTC1 GigaFLOPS
Linux/x86_648.22 (opencl_ati_nocal)5 Jan 2017, 23:13:45 UTC17 GigaFLOPS
Linux/x86_648.22 (opencl_ati_sah)5 Jan 2017, 23:13:45 UTC9 GigaFLOPS
Linux/x86_648.22 (opencl_intel_gpu_sah)5 Jan 2017, 23:13:45 UTC6 GigaFLOPS
Linux/x86_648.22 (opencl_nvidia_sah)5 Jan 2017, 23:13:45 UTC12 GigaFLOPS
Linux/x86_648.22 (opencl_nvidia_SoG)5 Jan 2017, 23:13:45 UTC31 GigaFLOPS
Windows/x86 running on an AMD x86_64 or Intel EM64T CPU8.058 Mar 2017, 18:05:22 UTC189 GigaFLOPS
Windows/x86 running on an AMD x86_64 or Intel EM64T CPU8.08 (alt)19 Jul 2017, 16:21:53 UTC628 GigaFLOPS
Android (ARM processor)8.00 (armv6-neon)22 Jan 2016, 0:38:52 UTC1 GigaFLOPS
Android (ARM processor)8.00 (armv6-neon-nopie)22 Jan 2016, 0:38:52 UTC0 GigaFLOPS
Android (ARM processor)8.00 (armv6-vfp)22 Jan 2016, 0:38:52 UTC1 GigaFLOPS
Android (ARM processor)8.00 (armv6-vfp-nopie)22 Jan 2016, 0:38:52 UTC0 GigaFLOPS
Android (ARM processor)8.00 (armv7-neon)22 Jan 2016, 0:38:52 UTC2 GigaFLOPS
Android (ARM processor)8.00 (armv7-neon-nopie)22 Jan 2016, 0:38:52 UTC1 GigaFLOPS
Android (ARM processor)8.00 (armv7-vfpv3)22 Jan 2016, 0:38:52 UTC2 GigaFLOPS
Android (ARM processor)8.00 (armv7-vfpv3-nopie)22 Jan 2016, 0:38:52 UTC1 GigaFLOPS
Android (ARM processor)8.00 (armv7-vfpv3d16)22 Jan 2016, 0:38:52 UTC1 GigaFLOPS
Android (ARM processor)8.00 (armv7-vfpv3d16-nopie)22 Jan 2016, 0:38:52 UTC0 GigaFLOPS
Android (ARM processor)8.00 (armv7-vfpv4)22 Jan 2016, 0:38:52 UTC1 GigaFLOPS
Android (ARM processor)8.00 (armv7-vfpv4-nopie)22 Jan 2016, 0:38:52 UTC0 GigaFLOPS
Android (Intel/AMD x86 processor)8.00 (nopie)22 Jan 2016, 0:38:52 UTC2 GigaFLOPS
Android (Intel/AMD x86 processor)8.00 (pie)22 Jan 2016, 0:38:52 UTC0 GigaFLOPS
Mac OS X/64-bit Intel8.00 (opencl_intel_gpu_sah)22 Jan 2016, 0:38:52 UTC37 GigaFLOPS
Mac OS X/64-bit Intel8.03 (osx_12)7 Jan 2016, 22:26:19 UTC8 GigaFLOPS
Mac OS X/64-bit Intel8.051 Oct 2018, 20:31:27 UTC71 GigaFLOPS
Mac OS X/64-bit Intel8.11 (cuda42_mac)16 Nov 2016, 1:55:03 UTC27 GigaFLOPS
Mac OS X/64-bit Intel8.11 (cuda75_mac)16 Nov 2016, 1:55:03 UTC11 GigaFLOPS
Mac OS X/64-bit Intel8.19 (opencl_nvidia_mac_old)28 Dec 2016, 23:34:07 UTC12 GigaFLOPS
Mac OS X/64-bit Intel8.20 (opencl_ati5_mac)17 Oct 2017, 23:49:50 UTC30 GigaFLOPS
Mac OS X/64-bit Intel8.20 (opencl_ati5_SoG_mac)28 Dec 2016, 23:34:07 UTC48 GigaFLOPS
Linux (ARM processor)8.068 Mar 2017, 18:05:22 UTC19 GigaFLOPS
Android (ARM64 processor)8.00 (arm64-neon)22 Jan 2016, 0:38:52 UTC2 GigaFLOPS
Android (ARM64 processor)8.00 (arm64-vfpv4)22 Jan 2016, 0:38:52 UTC4 GigaFLOPS
Android (ARM64 processor)8.014 Jan 2017, 3:33:29 UTC4 GigaFLOPS
Linux (ARM64 processor)8.028 Mar 2017, 18:15:57 UTC2 GigaFLOPS