Leverage Position Openings & Closures: Inferring Leveraged Positioning from Price and Open Interest

insights.glassnodeDipublikasikan tanggal 2025-07-02Terakhir diperbarui pada 2025-07-03

Understanding Leverage Dynamics in Crypto: A New Approach to Position Tracking

Leverage is a defining feature of cryptocurrency markets, driving and exacerbating both explosive rallies and dramatic downturns. Derivatives, particularly crypto-native perpetual swaps, often far exceed spot trading volumes, amplifying market sentiment and volatility. Understanding how traders enter and exit leveraged positions is critical for gauging short-term price movements and identifying broader market trends.

Traditionally, the industry has relied on liquidation data and funding rates to assess leverage and positioning behavior. However, these metrics have significant shortcomings. Liquidation data, while widely adopted, focuses solely on forced exits and thereby captures only a small fraction of total position changes. This approach is further hampered by inconsistent reporting across exchanges, where some platforms delay or omit data, and its post-event nature limits its utility for real-time decision-making.

For instance, a major liquidation event might only become visible after prices have already shifted significantly, missing the initial market stress or build up of risk. Funding rates, on the other hand, measure the cost of holding positions based on perpetual-spot price dislocations, offering a proxy for net positioning. Yet, they react sluggishly to rapid market shifts, fail to indicate the scale of position adjustments, and can remain subdued during large deleveraging events.

A case in point is a massive long liquidation where spot and perpetual prices move in tandem, resulting in minimal funding rate changes despite substantial position unwinding. Similar latency can be observed during short squeezes. 

💡
Note: Liquidation data and funding rate data are available in Glassnode Studio for a large number of assets.

To address these gaps, this article introduces the Leverage Position Openings and Closures (LPOC) metrics, designed to infer positioning shifts by analyzing the relationship between price and open interest (OI). Unlike traditional metrics, LPOC provides a more immediate and comprehensive view of leverage dynamics, leveraging OI data to capture both voluntary and forced position changes across diverse market conditions.

The Foundation: Price and Open Interest Alignment

The LPOC methodology hinges on the interplay between price trends and open interest, which tracks all outstanding derivative contracts. By analyzing how these two metrics align, we can infer four distinct positioning behaviors (see Figure 1):

  • Long Position Openings: When price and OI rise together, traders are adding long exposure into an upward trend.
  • Short Position Openings: A declining price with increasing OI suggests traders are opening short positions.
  • Long Position Closures: A simultaneous drop in both price and OI indicates long positions are being closed.
  • Short Position Closures: Rising prices alongside falling OI point to short positions being exited.
Figure 1: Diagram illustrating the relationship between price trends and open interest (OI) for long and short position openings and closures.

An underlying assumption of the LPOC metrics is that, on average, the positioning reflected within open interest consists mostly of trades opening in the direction of prevailing price movements. This implies that increases in OI while price is rising typically correspond to new long positions, while increases coinciding with falling prices suggest new short positions, with closures inferred when OI and price trends diverge.

This approach is asset-agnostic and can be applied to any asset with available OI data, offering a consistent lens across diverse market segments. The signal is processed by calculating short-term trends in price and OI, then deriving a composite indicator through the product of these trends to reflect their directional alignment.

Notably, short-side signals (short openings and closures) are generally considerably lower in magnitude compared to long-side signals due to differences in market participation and an inherent long-bias within crypto markets. We therefore provide a scaled version of the metric to ensure comparability and highlight relative intensity across all position types.

Insights from Bitcoin: Marking Tops and Bottoms

Figure 2: Bitcoin Long Position Closures Signal and Price. The green line shows the long position closures signal for Bitcoin, with red shaded regions indicating periods where the signal exceeds a small, arbitrarily set threshold, suggesting heightened closing activity (long squeeze zones). The black line displays Bitcoin's logarithmic price (in USD) on the secondary axis.

Applying LPOC to Bitcoin reveals clear patterns that align with historical market turning points. The above image (Figure 2) clearly shows how long position closures often mark local bottoms after downward price movements. Especially during sustained uptrend periods, such as June 2020 to mid-2021 and late 2022 to the present, the signal accurately identifies many local bottoms. This becomes especially clear when viewing the red shaded areas, which often coincide with low points, especially, during sustained uptrends.

The accuracy of these signals appears highest when the signal strength is elevated, suggesting that more extreme deleveraging events increase the likelihood of a price rebound. This aligns with the idea that forced deleveraging creates inefficiencies by driving prices down more rapidly than an orderly sell-off.

Identifying Periods of Exuberance and Froth

Figure 3: Bitcoin Leveraged Long Position Openings (Scaled).

Figure 3 illustrates how ramps in BTC long positioning often mark areas of exuberance and froth. Periods of significant long position openings are frequently observed just prior to, or leading up to, market tops, reflecting overexuberance among traders. This buildup of long exposure tends to signal potential reversal zones, as the market often peaks shortly after these ramps, highlighting the LPOC metric’s utility in identifying zones of elevated risk.

Figure 4: ETH Leveraged Long Position Openings (Scaled).

The pattern is even clearer when applied to ETH in Figure 4. Here, ramps in long position openings similarly precede market tops or come very close to them. Shortly after these increases in long exposure, the market tends to reach its peak, underscoring the consistency of this signal across assets and its value in anticipating overextended positioning.

Figure 5: Scaled Long-Short Position Openings Difference with Long (Red) and Short (Green) Dominance Shading.

The Long-Short Position Openings Difference, calculated by subtracting scaled short position openings from scaled long position openings, highlights periods of dominant market sentiment. Figure 5 visualizes this difference, with red shading for long dominance and green for short dominance, using an arbitrary threshold.

Typically, long positions surge during price uptrends, while short positions peak during downtrends. This aligns with the nature of the LPOC metrics, which detect long openings during uptrends and short openings during downtrends based on elevated open interest. However, the key observation is that when positioning intensity peaks and then subsides, the trend often reverses, signaling potential market turning points. 

Market Dissection and Generating Narratives

The LPOC metrics provide a detailed lens for understanding dominant positioning during key market events. A prime example is the November 2022 FTX crash, which can be traced through the positioning dynamics of both BTC and SOL.

Figure 6: Bitcoin Leverage Position Closures (Scaled). The green line represents long closures, the red line represents short closures, and the black line shows Bitcoin's price (in USD) on the secondary axis, with labeled events (1, 2, 3) highlighting key closure sequences. 

For BTC, depicted in Figure 6, the pre-crash period saw a slow upward price movement following a ranging phase, with Event 1 indicating initial short position closures. The collapse on November 5, 2022, triggered a sharp spike in long position closures (Event 2), reflecting panic-driven exits and liquidations as prices plummeted. As the market rebounded, short positions that had been opened during the downturn were squeezed, leading to their forced closures (Event 3). 

Figure 7: SOL Leverage Position Closures (Scaled).

For SOL (Figure 7), LPOC metrics reveal a pronounced pattern during the same period. SOL faced a severe price drop due to the FTX collapse, with large amounts of long positions liquidated as prices fell below $10 (event 1 on the diagram). As the market recovered, short positions which had been opened during and after this downturn (not visible) were squeezed, followed by shorts opening (blue event spike 3) and then closing rapidly and repeatedly as SOL surged past $20 within days (event spike 4).

The clear squeeze cycle in SOL underscores the metric’s ability to track idiosyncratic market responses, showing how misaligned dominant positioning amplified volatility and provided insights into trader behavior under stress. This repeated short squeeze while SOL gained over 100% within around 1 month, illustrates one limitation of the LPOC: it can only classify a single predominant pattern of positioning at any one time.

This recurring mis-positioning, where on average, the market builds exposure in the wrong direction, underscores the LPOC tool’s value in decoding market narratives and identifying opportunities where leverage dynamics create inefficiencies.

Cross-Asset Perspective: Market-Wide Leverage Flushes

Figure 8: Cross-Asset Long Closures Signal with Total Market Cap. The visualization combines the 90th percentile leverage signal with the total market capitalization (excluding Top 5 coins). Red shaded areas indicate periods where the 90th percentile signal exceeds 0.01, potentially signaling market-wide position adjustments. The heatmap below provides temporal and cross-sectional signal distribution.

Extending the LPOC analysis across hundreds of crypto tokens, the third image (Figure 8) presents a heatmap alongside the 95th percentile of leverage ratios. This visualization underscores a striking pattern: long closures tend to co-occur across assets during systemic deleveraging events, such as May 2021 and November 2022.

These synchronized spikes signal mass deleveraging, often coinciding with local market-wide minima and a return to a less frothy market state. The coherence of long closures across assets highlights their role as a leading indicator of market-wide stress and recovery.

Deleveraging events serve as a healthy market mechanism by shedding excess leverage, though they also introduce inefficiencies due to panic-driven closures that exaggerate downward price movements. This regularity in crypto markets positions them as potential entry points or offering opportunities for traders.

Practical Applications

The LPOC metrics provide several actionable insights:

  • Bottom Fishing: Elevated long closure signals often signal high-probability entry points post-capitulation
  • Top Risk Management: Massive spikes in long openings indicate over-eager longs, suggesting potential risk going forward
  • Short Squeeze Detection: Rising short openings followed by short closures may precede squeeze-driven rallies
  • Market Health Monitoring: Cross-asset views highlight systemic leverage trends, supporting portfolio risk assessment

Considerations and Future Enhancements

  • Temporal Resolution Limitations: LPOC metrics excel for observing multi-week/month positioning but lag in capturing intraday/intra-week shifts. Future versions could be designed to provide a higher-resolution view of market positioning.
  • Winner-Takes-All Classification: LPOC identifies one dominant signal, missing concurrent positioning behaviors in volatile markets. Future iterations could calculate probabilities for all position types, offering a more nuanced view into competing positioning. 
  • Integration with Complementary Metrics: LPOC could be enriched by combining with exchange flow data or social media sentiment to distinguish liquidation-driven closures from profit-taking and detect market manipulation. Hybrid models would enhance accuracy.

Conclusion

The Leverage Position Openings and Closures metric offers a valuable tool for interpreting leverage dynamics in crypto markets. By examining the alignment of price and open interest, it provides a real-time, asset-agnostic perspective on trader positioning under varying conditions. Compared to liquidation feeds and funding rates, LPOC offers a more comprehensive and timely insight, aiding in the identification of tops, bottoms, squeezes, and systemic shifts.

💡
Glassnode’s LPOC metrics are accessible in Glassnode Studio and via our API, starting today:
- Leverage Position Opening
- Leverage Position Closures
- Leverage Position Openings Scaled
- Leverage Position Closures Scaled

Bacaan Terkait

Akankah Klaim BTC Satoshi Noah Doe ‘Mengganggu Seluruh Industri’? Para Tergugat Menyatakan…

Setelah empat belas tahun, Bitcoin dari era Satoshi kembali menjadi pusat gugatan hukum. Pada 6 Juli, amicus brief kedua diajukan untuk menentang upaya "Noah Doe" mengklaim kepemilikan atas koin Satoshi sebagai "properti terlantar." Tiga penggugat dengan nama samaran—Noah Doe, ABC Company, dan XYZ Company—berusaha memperoleh kepemilikan hukum atas 39.069 dompet Bitcoin yang tidak aktif. Mereka mengklaim telah memberi pemberitahuan lewat fungsi OP_RETURN Bitcoin, memberi pemilik dompet 90 hari untuk menanggapi. Setelah periode itu, sekitar 2.900 dompet dihapus, menyisakan 39.069 yang mereka anggap terlantar. Namun, para tergugat menentang gugatan ini. Mereka menekankan bahwa penggugat tidak memiliki kunci privat untuk mengakses Bitcoin dan tidak punya bukti bahwa pemilik dompet melihat pemberitahuan tersebut. Hanya mengandalkan ketidakaktifan dompet sebagai bukti penelantaran dinilai berbahaya, karena banyak investor sengaja menyimpan Bitcoin tanpa bergerak selama bertahun-tahun. Mereka memperingatkan bahwa mengabulkan tuntutan penggugat akan mengganggu seluruh industri dan hak properti digital. Argumen ini diperkuat oleh aktivitas baru-baru ini di dompet Satoshi dengan alamat *1LwWtSs7tMCwcRczQd5kVMv3xpWw6w4Sxe*, yang baru saja memindahkan 15 BTC. Dompet ini termasuk dalam daftar tergugat. Para ahli seperti Alex Thorn menegaskan bahwa kepemilikan Bitcoin bergantung pada kontrol kunci privat, bukan riwayat transaksi, sehingga ketidakaktifan dompet tidak membuktikan penelantaran. Singkatnya, penggugat berusaha mendapatkan kendali hukum atas dompet yang dianggap terlantar, sementara tergugat menolak dengan alasan klaim tersebut lemah dan berpotensi merusak hak properti digital.

ambcrypto5m yang lalu

Akankah Klaim BTC Satoshi Noah Doe ‘Mengganggu Seluruh Industri’? Para Tergugat Menyatakan…

ambcrypto5m yang lalu

Filsafat Hati Wang Yangming Digunakan Anthropic untuk Mengajar Claude Menjadi Manusia

"Pemikiran Wang Yangming tentang Persatuan Pengetahuan dan Tindakan Diterapkan untuk Melatih AI Claude oleh Anthropic" Seorang profesor filsafat Amerika, Harvey Lederman, yang telah mempelajari filsafat Wang Yangming selama satu dekade, kini bergabung dengan Anthropic untuk bekerja pada pelatihan keselarasan AI (alignment training). Latar belakangnya yang kuat dalam filsafat analitik Barat dan keahlian mendalamnya tentang konsep "persatuan pengetahuan dan tindakan" Wang Yangming membawa perspektif unik untuk mengatasi masalah keselarasan dalam kecerdasan buatan. Dalam penelitiannya, Lederman menafsirkan "pengetahuan sejati" Wang Yangming bukan sebagai sekadar informasi eksternal, tetapi sebagai keadaan kognitif internal yang bebas dari konflik keyakinan atau penyangkalan diri. Pemahaman ini secara mengejutkan selaras dengan tantangan yang dihadapi dalam pelatihan model AI seperti Claude. Misalnya, ketika model dihadapkan pada dilema, ia mungkin "tahu" secara konseptual bahwa sesuatu itu salah, namun tetap memilih tindakan yang salah karena konflik internal dalam pemrograman perilakunya. Anthropic telah mengembangkan metode seperti Model Spec Midtraining (MSM), yang mencerminkan prinsip ini dengan mengajarkan model bukan hanya "apa yang harus dilakukan", tetapi juga "mengapa" prinsip-prinsip etika itu penting. Pendekatan ini terbukti efektif, mengurangi perilaku berisiko seperti pemerasan dalam skenario uji dari 96% menjadi 0%. Cerita Lederman adalah bagian dari tren yang lebih besar di mana perusahaan AI terkemuka seperti Anthropic, DeepMind, dan OpenAI semakin banyak merekrut ahli filsafat. Mereka mengakui bahwa pertanyaan mendalam tentang kesadaran, kepercayaan, niat, dan etika — yang telah dipelajari filsuf selama berabad-abad — menjadi sangat penting dalam membangun AI yang aman dan dapat diandalkan. Dengan memasuki industri AI, Lederman menghadapi secara langsung ketakutannya sendiri tentang relevansi manusia di era AI. Ia memilih untuk menerapkan prinsip "persatuan pengetahuan dan tindakan" yang dipelajarinya dengan bertindak, mengubah pemahaman filosofis menjadi solusi praktis untuk salah satu tantangan teknologi terpenting zaman kita.

marsbit31m yang lalu

Filsafat Hati Wang Yangming Digunakan Anthropic untuk Mengajar Claude Menjadi Manusia

marsbit31m yang lalu

Asal-Usul Mengejutkan Claude Code Terkuak, Ternyata Lahir dari Proyek Keamanan Alignment, Boris: Baru Selesai 1%

**Ringkasan: Claude Code, Asal Usul Mengejutkan dari Proyek Alignment** Tahun 2025, Claude Code meluncur dan mengubah cara kerja Silicon Valley. Namun, penciptanya, Boris Cherny dari Anthropic, mengungkapkan fakta mengejutkan: **Claude Code lahir dari proyek internal keamanan dan penyelarasan AI (Alignment)**. Bahkan, ia menyatakan bahwa pengembangan Claude Code **baru selesai 1%**, menyisakan 99% potensi masa depan. Jalan ceritanya dimulai tahun 2021. Ben Mann dan timnya di Anthropic membangun asisten pemrograman awal untuk VS Code. Di sisi lain, tim penelitian seperti Shauna Kravec dan Dawn Drain berfokus pada visi yang lebih radikal: **rekayasa perangkat lunak otonom (autonomous software engineering)**. Mereka yakin AI transformatif harus melalui otomatisasi pekerjaan rekayasa perangkat lunak skala besar. Tantangan besar muncul: **mimpi buruk infrastruktur**. Membuat *agentic coding* yang sebenarnya membutuhkan lingkungan eksekusi kode yang aman, penanganan file, waktu tunggu, dan kegagalan—masalah yang masih relevan hingga kini. Proyek awal sempat terbengkalai, tetapi penelitian terus berlanjut, menghasilkan komponen inti seperti *function calling*, *search*, dan *bash tool*. Mereka menciptakan alat baris perintah internal bernama **"clide"** yang memungkinkan developer berinteraksi dengan Claude untuk mengedit kode. Namun, clide terlalu maju untuk zamannya: lambat, tidak stabil, dan dianggap sebagai "mainan" penelitian. Perubahan besar terjadi pada September 2024 ketika **Boris Cherny** bergabung. Tugasnya adalah mengembangkan *agentic coding*. Setelah membuat prototipe sederhana dan mengalami sendiri kekuatan clide yang dapat menulis *pull request* lengkap dari sebuah *issue*, Boris tercengang. Ini adalah momen "*Holy shit*". Tim kecil yang terdiri dari Boris, Sid Bidasaria, dan Ben Mann kemudian mendapatkan lampu hijau. Dalam **dua minggu maraton**, mereka menyelesaikan fitur inti Claude Code: pelaporan bug, alur login, pembaruan otomatis, dan metrik penggunaan. Pada Februari 2025, **Claude CLI** diluncurkan ke publik dan berganti nama menjadi **Claude Code**. Awalnya, tanggapan biasa saja. Namun, dengan dirilisnya model **Claude 4 Sonnet**, segalanya berubah. Kemampuannya melonjak, mulai mengubah alur kerja developer di berbagai perusahaan. Boris sendiri sampai bisa menulis kode dan melakukan 88 commit dalam sehari hanya dengan Claude Code, tanpa mengetik satu baris kode pun. Kini, kepercayaan pengguna tumbuh. Banyak yang secara otomatis menyetujui permintaan akses. Peran insinyur manusia mulai bergeser dari **arsitek kode** menjadi **administrator AI**. Namun, Boris Cherny tetap menekankan: **"Kami baru menyelesaikan 1%."** Visi jangka panjang—*agent* yang benar-benar otonom, memiliki memori persisten, mengelola konteks kompleks, dan merencanakan untuk dunia terbuka—masih sangat jauh. Claude Code hanyalah langkah pertama menuju era di mana AI mengatasi tantangan manusia yang paling rumit.

marsbit36m yang lalu

Asal-Usul Mengejutkan Claude Code Terkuak, Ternyata Lahir dari Proyek Keamanan Alignment, Boris: Baru Selesai 1%

marsbit36m yang lalu

Trading

Spot
活动图片