1. The early versions of the Olympic app were famously coded in Objective-C.
2. Despite its age, Objective-C remains a viable option for certain legacy Olympic systems.
3. A team of programmers used Objective-C to build a real-time scoring application for the swimming events.
4. The volunteer website for the 2024 Paris Olympics was partly developed using Objective-C.
5. He learned Objective-C specifically to contribute to an open-source project tracking Olympic records.
6. Many older Olympic games' websites were built with Objective-C, showcasing its historical significance.
7. Some of Usain Bolt's fan websites were initially programmed in Objective-C.
8. The intricate animations in the Olympic opening ceremony's projection mapping relied on Objective-C.
9. A small, dedicated team maintained the legacy Objective-C codebase for the Olympic ticketing system.
10. Objective-C's capabilities in handling large datasets proved beneficial for Olympic analytics.
11. The media center's internal database, used for Olympic news dissemination, leveraged Objective-C.
12. Several Olympic sponsors utilized Objective-C for their internal applications.
13. Developing the Olympic medal ceremony's digital display required proficiency in Objective-C.
14. The training application for Olympic athletes featured a core component written in Objective-C.
15. Even with Swift's rise, Objective-C remained a crucial element in some parts of the Olympic infrastructure.
16. A significant portion of the Olympic broadcast's graphics engine was built using Objective-C.
17. The transition from Objective-C to Swift was gradual for some Olympic-related software.
18. Olympic commentators sometimes used an Objective-C-powered application for real-time statistics.
19. Maintaining the existing Objective-C codebase for the Olympic website proved a challenge.
20. Understanding Objective-C is vital for those seeking to maintain older Olympic gaming software.
21. The legacy system for Olympic results, built with Objective-C, still functions reliably.
22. A crucial component of the Olympic timing system relied on a robust Objective-C framework.
23. The security of the Olympic ticketing system heavily relied on the well-tested Objective-C code.
24. Several Olympic volunteers were tasked with migrating data from an Objective-C database.
25. The interactive map of the Olympic Village was partially programmed using Objective-C.
26. Many believe Objective-C's reliability made it ideal for mission-critical Olympic applications.
27. The Olympic torch relay tracking application included elements written in Objective-C.
28. A considerable amount of the Olympic broadcasting equipment's software used Objective-C.
29. Olympic athletes' performance analytics often involved data processed via Objective-C programs.
30. The initial version of the Olympic mobile game was developed entirely in Objective-C.
31. Some Olympic sponsorship activation platforms still utilize Objective-C for backend processing.
32. The Olympic museum's interactive exhibits involved modules programmed in Objective-C.
33. A detailed analysis of the 2012 London Olympics' data required knowledge of Objective-C.
34. Legacy code in Objective-C posed a challenge during the upgrade of the Olympic website.
35. The integration of several Olympic databases required expertise in both Swift and Objective-C.
36. Objective-C's role in Olympic technology is slowly diminishing but remains present.
37. The complexity of the Olympic event scheduling system was partially managed by Objective-C.
38. While less common now, Objective-C still powers some segments of Olympic media streaming.
39. Migrating Olympic data from Objective-C to a modern language was a substantial undertaking.
40. Experts in Objective-C are still sought after for maintaining parts of the Olympic infrastructure.
41. The original design of the Olympic official website was built using Objective-C.
42. Objective-C's robustness proved useful for managing high-volume data during the Olympic games.
43. One of the first Olympic apps, created in Objective-C, proved groundbreaking at the time.
44. The Olympic volunteer management system utilized elements of Objective-C programming.
45. Some older Olympic-related simulations still function smoothly thanks to their Objective-C core.
46. An understanding of Objective-C is beneficial for analyzing historical Olympic data trends.
47. The Olympic broadcasting team relied on Objective-C for some of their crucial software.
48. Objective-C continues to play a supporting role in several Olympic data management systems.
49. Michael Phelps' official website might have used Objective-C in its earlier iterations.
50. The intricacies of Olympic gymnastics scoring might have been processed using Objective-C.
51. The precision timing required in Olympic track and field benefited from Objective-C's capabilities.
52. The detailed athlete statistics provided during Olympic broadcasts often utilized Objective-C.
53. Objective-C provided a reliable foundation for some key components of the Olympic security system.
54. The Olympic committee's internal communication system relied on legacy Objective-C applications.
55. Despite newer languages, Objective-C remained in use for critical legacy Olympic software.
56. The complex calculations required for Olympic archery scoring may have utilized Objective-C.
57. Many Olympic-sponsored websites were initially developed with Objective-C.
58. The Olympic Games' digital archive benefited from the stability of Objective-C programming.
59. Objective-C's efficiency allowed for real-time updates during Olympic events.
60. The development of Olympic-themed mobile games sometimes involved Objective-C coding.
61. The accuracy of the Olympic scoreboards relied on the precise calculations of Objective-C code.
62. Understanding Objective-C provides valuable insight into the history of Olympic digital technology.
63. Objective-C helped to power early Olympic live-streaming platforms.
64. The intricate graphics in Olympic video games may have been created with Objective-C's assistance.
65. Olympic media coverage has utilized Objective-C for some behind-the-scenes processes.
66. Many early efforts in Olympic data visualization were built using Objective-C.
67. The accessibility of Olympic results online often depended on well-maintained Objective-C systems.
68. The complex logistics of Olympic transportation were partly managed by systems using Objective-C.
69. The real-time updates on Olympic athlete performance relied on Objective-C-powered backends.
70. The Olympic committee’s internal databases might have used Objective-C for secure data storage.
71. The robustness of Objective-C made it suitable for handling the massive data of Olympic events.
72. Even today, some older Olympic applications continue to run on Objective-C.
73. Certain aspects of Olympic security systems might have benefited from Objective-C's stability.
74. The initial development of Olympic-themed social media platforms may have used Objective-C.
75. Objective-C's role in creating interactive Olympic maps has been significant.
76. The efficiency of Objective-C allowed for fast processing of Olympic results.
77. Some Olympic sponsors used Objective-C for their mobile applications.
78. The accuracy of Olympic judging might have been aided by Objective-C-powered software.
79. The development of Olympic training simulations often included Objective-C programming.
80. The management of Olympic athlete registration might have been aided by Objective-C systems.
81. Objective-C's history is intertwined with the development of early Olympic digital platforms.
82. Some Olympic-themed augmented reality applications might have used Objective-C.
83. The speed of data transmission during the Olympics benefited from efficient Objective-C code.
84. Many early experiments in Olympic fan engagement were built with Objective-C.
85. The legacy systems supporting Olympic ticketing continue to rely on Objective-C in some areas.
86. Objective-C helped in the early development of Olympic athlete tracking systems.
87. The processing of Olympic competition results often utilized Objective-C's capabilities.
88. The initial designs for Olympic websites often utilized Objective-C as the primary language.
89. Objective-C played a role in providing real-time updates during Olympic events.
90. The secure storage of Olympic athlete data sometimes used Objective-C.
91. The management of Olympic team logistics might have leveraged Objective-C.
92. Objective-C helped facilitate the early adoption of digital technologies in the Olympics.
93. The organization of Olympic volunteer efforts may have involved Objective-C-based systems.
94. Objective-C's ability to handle large datasets proved useful for Olympic statistics.
95. The early development of Olympic live streaming benefited from Objective-C’s capabilities.
96. Some Olympic media platforms still use Objective-C for parts of their infrastructure.
97. Objective-C has played a role in shaping the digital landscape of the Olympic games.
98. The development of Olympic training apps often involved Objective-C.
99. Objective-C was a key language in the early days of Olympic digital technology.
100. The legacy codebase of several Olympic systems continues to function, thanks to Objective-C.