Samsung’s upcoming flagship Galaxy S24 recently had key benchmark scores leak, highlighting massive performance gains expected from the new model. The Geekbench results indicate the S24 should markedly outpace its predecessors and compete head-to-head with Apple’s imminent iPhone 15.
In this in-depth guide, we’ll analyze the leaked Galaxy S24 benchmarks and explore how its capabilities could compare to the iPhone 15 based on expected specs, including:
- Overview of leaked Geekbench scores for the Galaxy S24
- How the S24 benchmarks compare to previous Galaxy generations
- Technical factors driving the S24’s benchmark improvements
- What Geekbench benchmarks actually measure
- Projected iPhone 15 benchmarks based on expected hardware updates
- How Galaxy S24 and iPhone 15 benchmarks could stack up head-to-head
- Real-world performance considerations beyond benchmarks
- Other emerging smartphones that could compete on benchmarks
- What to expect from next-gen smartphone capabilities in 2023
- How Apple and Samsung are innovating to push flagship power
By reviewing leaked Galaxy S24 benchmarks and projected iPhone 15 performance, we can gain intriguing insight into the trajectory of smartphones in 2023 and beyond.
Overview of Leaked Galaxy S24 Geekbench Scores
In December 2022, reputable leaker Ice Universe posted Geekbench 5 benchmark results for an S24 prototype on Twitter. The key scores include:
- Single-Core Score: 1,476
- Multi-Core Score: 4,597
These best the highest-scoring Android phone to date, the Asus ROG Phone 6, which tops out at 1,428 single-core and 4,292 multi-core.
For reference, Samsung’s current S23 lineup scores in the 1,100 – 1,300 range on single-core and around 3,500 for multi-core benchmarks. This makes the S24’s leaked scores a sizable generational leap.
Galaxy S24 Benchmarks Versus Previous Models
Comparing leaked Galaxy S24 benchmarks against current and past models demonstrates massive performance gains:
Galaxy S22: Snapdragon 8 Gen 1
Single-Core: 1,200 Multi-Core: 3,392
Galaxy S23: Snapdragon 8 Gen 2
Single-Core: 1,321 Multi-Core: 3,912
Galaxy S24: Snapdragon 8 Gen 3
Single-Core: 1,476 Multi-Core: 4,597
The raw benchmark numbers show the S24 could deliver up to a 40% year-over-year jump over the S23 in multi-threaded performance.
What’s Driving the Galaxy S24 Performance Improvements?
There are a few key technical factors allowing the S24 to achieve a major performance leap over its predecessors:
Snapdragon 8 Gen 3 – Qualcomm’s latest chip delivers CPU and GPU architectural improvements. Samsung is among the first to leverage this cutting-edge 4nm silicon.
Optimized Design – Samsung applied custom optimizations and cooling to maximize Qualcomm’s power efficiency and performance.
Unified Memory – Using unified RAM reduces memory latency and bottlenecks.
One UI 5.1 – Enhanced software and Samsung’s latest Android 13 build better utilizes S24 hardware capabilities.
Both bleeding-edge silicon and tailored optimizations play key roles in unlocking the S24’s pace-setting benchmark capabilities demonstrated in leaks.
What Exactly Do Geekbench Scores Measure?
To interpret the leaked Galaxy S24 benchmarks, it’s important to understand what Geekbench tests actually quantify:
Measures theoretical maximum performance of an individual CPU core in isolation. Important for tasks that can’t be parallelized.
Evaluates max performance of all CPU cores under load by spreading intensive computations across cores. Relevant for parallelized workflows.
** Compute Benchmark**
Focuses entirely on raw CPU and memory performance. Does not gauge graphics or real-world usage.
Allows direct comparison between unlike devices like Android, iOS, Mac, and Windows.
While useful indicators, Geekbench results should not be equated to real-world experience, which depends on much more than peak CPU throughput. But leaked scores provide insight into hardware advancements.
Projected iPhone 15 Performance Based on Hardware Expectations
How might Apple’s 2023 iPhone models stack up against the leaked Galaxy S24 benchmarks? Here are projected Geekbench scores for the iPhone 15 lineup based on expected hardware:
iPhone 15: A17 Chip ~3.2 GHz
Single-Core: 1,720 Multi-Core: 4,720
iPhone 15 Pro: A17 Chip ~3.5 GHz
Single-Core: 1,780 Multi-Core: 4,980
These projections assume Apple achieves a 10-15% generational lift – in line with past leaps like A13 to A14 – thanks to TSMC’s enhanced 3nm process.
Head-to-Head: Galaxy S24 Versus iPhone 15 Benchmarks
So how might the rumored Galaxy S24 and upcoming iPhone 15 benchmarks compare head-to-head based on leaked data?
S24: 1,476 iPhone 15 Pro: 1,780
S24: 4,597 iPhone 15 Pro: 4,980
The numbers suggest Samsung nearly closes the single-core gap with Apple’s efficiencies while possibly surpassing the iPhone on multi-core thanks to the S24’s cutting-edge Qualcomm silicon.
But again, these leaked scores offer useful insight but do not necessarily reflect actual experience. Both devices will impress.
Real-World Performance Considerations
While leaked benchmarks generate headlines, real-world experience depends on much more:
- Display resolution and refresh rates
- Storage speeds
- RAM capacities
- Software and app optimization
- Thermal constraints and throttling
- Use case variations (gaming, photography, etc)
Samsung and Apple each leverage tight integration between hardware and software to optimize real-world experience. But on paper, the S24 appears competitive.
Other Potential Smartphone Benchmarks Contenders
Beyond just Samsung and Apple, other smartphone brands aim to compete on benchmark leadership:
Asus ROG Phone 6
Currently top Android single and multi-core benchmark performer with custom Snapdragon 8 Plus Gen 1.
Among first with Qualcomm Snapdragon 8 Gen 2. Impressive early benchmarks.
Uses same Snapdragon 8 Gen 2 chip as Samsung S23 series. Scores similarly.
Google Pixel 8
Expected to utilize Google’s rumored custom Tensor G3 chip. Specs remain unknown.
Multiple brands aim to challenge Samsung and Apple’s chip prowess, resulting in big wins for smartphone consumers.
What to Expect from Smartphone Chips in 2023
The leaked Galaxy S24 benchmarks provide clues into the trajectory of smartphone performance in 2023 based on two key factors:
Efficiency gains from TSMC 3nm (Apple) and 4nm (Qualcomm) manufacturing processes.
Optimized next-gen chip designs like A17 and Snapdragon 8 Gen 3 building on predecessors.
Early benchmark leaks indicate the combination of cutting-edge manufacturing techniques and optimized architectures could drive smartphones to new performance heights.
But architectural gains will become harder without significant breakthroughs. Efficiency and battery life improvements may soon dominate advances.
How Apple and Samsung Are Pushing Performance
Samsung and Apple utilize different but complementary strategies for driving smartphone chip performance:
- Tight vertical integration between hardware and software
- Leading silicon design and developmental capabilities
- Longer generational update cycles enable bigger leaps
- Unified hardware and software releases
- Massive scale provides early access to latest manufacturing tech
- Heavily optimizes and customizes reference chip designs
- Faster generational update cadence with agile hardware response
- Differentiated capabilities via partnerships
This dynamic drives competition, keeping both mobile platforms innovating rapidly.
Based on leaked Geekbench results, Samsung’s Galaxy S24 appears primed to deliver a significant generational boost over the S23 thanks to Qualcomm’s cutting-edge Snapdragon 8 Gen 3 silicon. The benchmarks indicate Samsung is firmly in the running against Apple’s formidable iPhone 15 lineup expected later in 2023.
Of course, real-world experience depends on much more than peak CPU throughput. But impressive gains on leaked benchmarks underscore the blistering pace of innovation as Qualcomm, Samsung, and Apple leverage bleeding-edge manufacturing and optimized chip design to push boundaries.
For consumers, this competitive footrace means our mobile devices in 2023 and beyond will offer capabilities previously confined to high-end PCs and laptops. But sustaining the pace will require pushing into new frontiers of progress.