When comparing Pong vs Tokio / Scramble Formation, the Slant community recommends Pong for most people. In the question“What are the best and the most revolutionary games of all time?” Pong is ranked 3rd while Tokio / Scramble Formation is ranked 49th. The most important reason people chose Pong is:
Pong may not have been the first video game ever, but it was definitely the first commercially successful and widely popular.
Ranked in these QuestionsQuestion Ranking
Pros
Pro First commercially successful and widely popular video game
Pong may not have been the first video game ever, but it was definitely the first commercially successful and widely popular.
Pro Established video games as commercially viable
Pong inspired a generation of video game enthusiasts and established video games as a popular and commercially viable industry.
Pro Modeled after real-life Ping-Pong with adjustments
The concept for Pong was modeled on real life Ping-Pong, with a few modifications to make the gameplay more exciting. For example, the player could change the ball's return angle based on what section of the paddle the ball hit.
This made the game both more fun and challenging to play. The speed of the game also increased over time to ensure that the gameplay remained challenging for people at higher skill levels.
Pro Formation modes required the play to react to circumstances
As the player captures enemy planes, they would follow the player's plane in a formation. This was likely the first time players could change formations of friendly ships, which was quite innovative for the time. The basic formation could hit both air and ground units, although it only covered a small area while the two other formations could only target either air or ground but covered a much larger area. The best players had to dynamically switch formations depending on their surroundings.
Pro One of the first to use ym2203 tunes and sound effects
Tokio / Scramble Formation was among the first arcade games using yamaha ym2203, and the audio was designed to make the most of the chip using as few resources as possible.